https://community.nxp.com/t5/Sensors/Angle-sensor-development/m-p/316018#M784 <HTML><HEAD></HEAD><BODY><P>Hi,</P><P>Start by reviewing following app. note AN3107 Measuring Tilt with Low-g Accelerometers</P><P></P><P><A href="http://cache.freescale.com/files/sensors/doc/app_note/AN3107.pdf?&amp;Parent_nodeId=&amp;Parent_pageType=" title="http://cache.freescale.com/files/sensors/doc/app_note/AN3107.pdf?&amp;Parent_nodeId=&amp;Parent_pageType=">http://cache.freescale.com/files/sensors/doc/app_note/AN3107.pdf?&amp;Parent_nodeId=&amp;Parent_pageType=</A></P><P></P><P>page 4:</P><P>...A 12-bit ADC cuts 3.3V supply into 4095 steps of 0.8mV for each step. Therefore, by taking one ADC reading of the MMA6260Q again at 0g (0° of tilt for an x-axis device), would now result in the following:</P><P>0°: 1650mV + 0.8mV = 1650.8mV</P><P>90°: 2450mV + 0.8mV = 2450.8mV </P><P>This results in a 0.057 degree resolution at the highest sensitivity point (0°) and 1.63 degree resolution at the lowest sensitivity point (90°). However, for 0.8mV changes, the noise factor becomes the factor to consider during design. How much noise the system has will depend on how much resolution you can get with a higher bit count.</P><P></P><P>The 14-bit ADC accelerometer can be proportional better.</P></BODY></HTML> Thu, 19 Jun 2014 11:26:17 GMT Martin35804 2014-06-19T11:26:17Z https://community.nxp.com/t5/Sensors/Angle-sensor-development/m-p/316017#M783 <HTML><HEAD></HEAD><BODY><P>Hello,</P><P>&nbsp;&nbsp;&nbsp;&nbsp; I want to build a angle sensor with the following brief spec.:</P><P></P><P>Range : +/- 30 deg</P><P></P><P>Accuracy : 0.1 deg</P><P></P><P>Resolution : 0.01 deg</P><P></P><P>The angle measured will be roll or pitch(one at a time) of a body. Would like to have some advise from the community.</P><P></P><P>Looking for an interesting discussion</P></BODY></HTML> Mon, 09 Jun 2014 13:37:07 GMT https://community.nxp.com/t5/Sensors/Angle-sensor-development/m-p/316017#M783 Sri10 2014-06-09T13:37:07Z https://community.nxp.com/t5/Sensors/Angle-sensor-development/m-p/316018#M784 <HTML><HEAD></HEAD><BODY><P>Hi,</P><P>Start by reviewing following app. note AN3107 Measuring Tilt with Low-g Accelerometers</P><P></P><P><A href="http://cache.freescale.com/files/sensors/doc/app_note/AN3107.pdf?&amp;Parent_nodeId=&amp;Parent_pageType=" title="http://cache.freescale.com/files/sensors/doc/app_note/AN3107.pdf?&amp;Parent_nodeId=&amp;Parent_pageType=">http://cache.freescale.com/files/sensors/doc/app_note/AN3107.pdf?&amp;Parent_nodeId=&amp;Parent_pageType=</A></P><P></P><P>page 4:</P><P>...A 12-bit ADC cuts 3.3V supply into 4095 steps of 0.8mV for each step. Therefore, by taking one ADC reading of the MMA6260Q again at 0g (0° of tilt for an x-axis device), would now result in the following:</P><P>0°: 1650mV + 0.8mV = 1650.8mV</P><P>90°: 2450mV + 0.8mV = 2450.8mV </P><P>This results in a 0.057 degree resolution at the highest sensitivity point (0°) and 1.63 degree resolution at the lowest sensitivity point (90°). However, for 0.8mV changes, the noise factor becomes the factor to consider during design. How much noise the system has will depend on how much resolution you can get with a higher bit count.</P><P></P><P>The 14-bit ADC accelerometer can be proportional better.</P></BODY></HTML> Thu, 19 Jun 2014 11:26:17 GMT https://community.nxp.com/t5/Sensors/Angle-sensor-development/m-p/316018#M784 Martin35804 2014-06-19T11:26:17Z