3 AXIS MEMS ACCELEROMETER* FOR TILT SENSING Search Results
3 AXIS MEMS ACCELEROMETER* FOR TILT SENSING Result Highlights (5)
Part | ECAD Model | Manufacturer | Description | Download | Buy |
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SCC433T-K03-10 | Murata Manufacturing Co Ltd | 2-Axis Gyro, 3-axis Accelerometer combination sensor |
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SCC433T-K03-004 | Murata Manufacturing Co Ltd | 2-Axis Gyro, 3-axis Accelerometer combination sensor |
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SCC433T-K03-05 | Murata Manufacturing Co Ltd | 2-Axis Gyro, 3-axis Accelerometer combination sensor |
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SCC433T-K03-PCB | Murata Manufacturing Co Ltd | 2-Axis Gyro, 3-axis Accelerometer combination sensor on Evaluation Board |
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SCR410T-K03-004 | Murata Manufacturing Co Ltd | 1-Axis Gyro Sensor |
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3 AXIS MEMS ACCELEROMETER* FOR TILT SENSING Datasheets Context Search
Catalog Datasheet | Type | Document Tags | |
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AccelerationContextual Info: AN 005 Tilt-Sensing with Kionix MEMS Accelerometers Introduction Tilt/Inclination sensing is a common application for low-g accelerometers. This application note describes how to use Kionix MEMS low-g accelerometers to enable tilt sensing. Applicable theory, plots and equations are provided with this note as |
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Tilt-compensat07 Acceleration | |
Acceleration
Abstract: KXM52
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Gyroscope technical data
Abstract: ADIS16201 impact sensor br06 gyroscope 9 AXIS gyroscope ANGLE ADIS16209 Gyroscope ADIS16006 ADIS16003
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BR06775-2 Gyroscope technical data ADIS16201 impact sensor br06 gyroscope 9 AXIS gyroscope ANGLE ADIS16209 Gyroscope ADIS16006 ADIS16003 | |
JESD22-B104-BContextual Info: AN 001 Free-fall Sensing for Drop-Force Modeling Using a Kionix MEMS Tri-Axis Accelerometer Introduction This application note describes how to use a Kionix MEMS tri-axis accelerometer as a free-fall sensor for drop force modeling applications. Required theory, equations, |
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Contextual Info: AN 022 Getting Started with the KXTE9 Introduction This application note will help developers quickly implement proof-of-concept designs using the KXTE9 tri-axis accelerometer. Please refer to the KXTE9 data sheet for additional implementation guidelines. While Kionix strives to ensure that our accelerometers will meet |
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gps tracker circuit diagram
Abstract: schematic pedometer HMC1041Z circuit diagram of pedometer pdf on Pedestrian Detection sirf grf2i reckoning VEHICLE DETECTION AMR mems pedometer MXD6020G
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AN219 gps tracker circuit diagram schematic pedometer HMC1041Z circuit diagram of pedometer pdf on Pedestrian Detection sirf grf2i reckoning VEHICLE DETECTION AMR mems pedometer MXD6020G | |
hmr3400
Abstract: HMC1022 HMC1021Z sensor magnetic vehicle presence compass module magnetometer digital 3 axis compass compass digital accelerometer magnetometer ADXL213
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HMR3400 HMR3400 HMR3300 HMC1022 HMC1021Z sensor magnetic vehicle presence compass module magnetometer digital 3 axis compass compass digital accelerometer magnetometer ADXL213 | |
AccelerationContextual Info: AN 012 Accelerometer Errors Introduction Although everyone would like them to be, sensors are not perfect. Understanding the accelerometer’s errors is just as important as understanding how the accelerometer works in an application. Errors can and will affect the application’s |
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Contextual Info: AN 041 Getting Started with the KX023 and KX022 Introduction This application note will help developers quickly implement proof-of-concept designs using the KX023 and KX022 tri-axis accelerometer. Please refer to the KX023 and KX022 data sheet for additional implementation guidelines. Kionix strives to ensure that our accelerometers will meet |
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KX023 KX022 KX022 KX022. | |
Contextual Info: AN 041 Getting Started with the KX023 and KX022 Introduction This application note will help developers quickly implement proof-of-concept designs using the KX023 and KX022 tri-axis accelerometer. Please refer to the KX023 and KX022 data sheet for additional implementation guidelines. Kionix strives to ensure that our accelerometers will meet |
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KX023 KX022 KX022 KX022. | |
Contextual Info: AN 023 Getting Started with the KXTF9 Introduction This application note will help developers quickly implement proof-of-concept designs using the KXTF9 tri-axis accelerometer. Please refer to the KXTF9 data sheet for additional implementation guidelines. While Kionix strives to ensure that our accelerometers will meet |
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MEMS ACCELEROMETER 3 axis analog output 10 Khz
Abstract: Tilt Sensors degree 3 axis earthquake Detection systems holter monitor ADXL105 accelerometer module airbag crash sensor Piezoelectric mems accelerometer ADXL202 ADXL202 Accelerometer ADXL202 MEMS ACCELEROMETER
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ADXL105 ADXL150/250 ADXL190 ADXL202/210 C3341a-12-3/00 MEMS ACCELEROMETER 3 axis analog output 10 Khz Tilt Sensors degree 3 axis earthquake Detection systems holter monitor ADXL105 accelerometer module airbag crash sensor Piezoelectric mems accelerometer ADXL202 ADXL202 Accelerometer ADXL202 MEMS ACCELEROMETER | |
AccelerationContextual Info: AN 025 Getting Started with the KXTI9 Introduction This application note will help developers quickly implement proof-of-concept designs using the KXTI9 tri-axis accelerometer. Please refer to the KXTI9 data sheet for additional implementation guidelines. While Kionix strives to ensure that our accelerometers will meet design expectations |
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Contextual Info: Freescale Semiconductor Application Note Document Number: AN3461 Rev. 6, 03/2013 Tilt Sensing Using a Three-Axis Accelerometer by: Mark Pedley 1 Introduction Contents 1 Accelerometers are sensitive to both linear acceleration and the local gravitational field. The former provides |
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AN3461 | |
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MMA845x
Abstract: Wearable Heart Rate Monitor FXOS8700CQ MMA955X MPY8600DK6T1
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800Hz) MMA845x Wearable Heart Rate Monitor FXOS8700CQ MMA955X MPY8600DK6T1 | |
AccelerationContextual Info: AN 011 Screen Rotation and Device Orientation Introduction This application note describes how to use a Kionix tri-axis accelerometer to perform a screen rotation function and a device orientation function on a portable handheld electronic device. An accelerometer is used to measure the orientation of the device. Based on the orientation of the |
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AccelerationContextual Info: AN020 Orientations and Rotations Introduction The fact that accelerometers are sensitive to the gravitational force on the device allows them to be used to determine the attitude of the sensor with respect to the reference gravitational vector. This attitude determination is very useful in leveling or |
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AN020 Acceleration | |
AN3182
Abstract: LIS331DLH application note 3 axis Accelerometers for rotation sensing compass calibration LIS331DLH 3 axis Accelerometer 3-axis accelerometer 2 axis Accelerometer analog ACC12 adc for accelerometer sensor
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AN3182 LIS331DLH LGA-16 AN3182 LIS331DLH application note 3 axis Accelerometers for rotation sensing compass calibration 3 axis Accelerometer 3-axis accelerometer 2 axis Accelerometer analog ACC12 adc for accelerometer sensor | |
Contextual Info: SF2006SN.A / Single axis class B seismic accelerometer 30S.SF2006SNA.C.05.11 Energy Mil/Aerospace Industrial Features Inertial Tilt − − − − − − − − Vibration Seismic ±5g linear output Very low noise of 0.9 µgrms/√Hz Wide dynamic range of 110 dB DC to 100Hz BW |
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SF2006SN SF2006SNA 100Hz 1000Hz | |
Contextual Info: SF1600S.A – SF1600SN.A / Single axis best in class seismic accelerometer 30S.SF1600A.B.01.12 Energy Mil/Aerospace Industrial Features Inertial Tilt − − − − − − − − Vibration Seismic ±3g linear output Best in class noise level of 0.3 µgrms/√Hz |
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SF1600S SF1600SN SF1600A 100Hz 1500Hz | |
ADXL202
Abstract: ADXL202AQC ADXL202JQC ADXL202 MEMS ACCELEROMETER single axis Accelerometer adxl202jqc aCCELEROMETER APPLICATION CIRCUIT ADXL202 Accelerometer time based techniques for analog built in self test e based all digital 3 axis mems Accelerometer* for tilt sensing electrolytic tilt Sensor circuit
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ADXL202 ADXL202 C3037a 14-Lead QC-14) ADXL202AQC ADXL202JQC ADXL202 MEMS ACCELEROMETER single axis Accelerometer adxl202jqc aCCELEROMETER APPLICATION CIRCUIT ADXL202 Accelerometer time based techniques for analog built in self test e based all digital 3 axis mems Accelerometer* for tilt sensing electrolytic tilt Sensor circuit | |
Contextual Info: SF1600S.A – SF1600SN.A / Single axis best in class seismic accelerometer 30S.SF1600A.C.02.13 Energy Mil/Aerospace Industrial Features Inertial Tilt Vibration Seismic ±3g linear output Best in class noise level of 0.3 µgrms/√Hz |
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SF1600S SF1600SN SF1600A 100Hz 1500Hz | |
Contextual Info: SF2006SN.A / Single axis class B seismic accelerometer 30S.SF2006SNA.E.02.13 Energy Mil/Aerospace Industrial Features Inertial Tilt Vibration Seismic ±5g linear output Very low noise of 0.9 µgrms/√Hz Wide dynamic range of 110 dB DC to 100Hz BW |
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SF2006SN SF2006SNA 100Hz 1000Hz | |
Contextual Info: SF2006SN.A / Single axis class B seismic accelerometer 30S.SF2006SNA.D.01.12 Energy Mil/Aerospace Industrial Features Inertial Tilt − − − − − − − − Vibration Seismic ±5g linear output Very low noise of 0.9 µgrms/√Hz Wide dynamic range of 110 dB DC to 100Hz BW |
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SF2006SN SF2006SNA 100Hz 1000Hz |