ADXL311
Abstract: ADXL320 ADXL330 ADXL213 ADXL103 ADXL204 ADXL322 hdd shock sensor AD8542 ADXL203
Text: Using Dual-Axis Accelerometers to Protect Hard Disk Drives By Wenshuai Liao [wenshuai.liao@analog.com] Yiming Zhao [yiming.zhao@analog.com] INTRODUCTION Hard disk drives HDDs are becoming more widely used than ever before, due to the explosive growth in the introduction of
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correADXL311
ADXL202
ADXL210
ADXL311
ADXL320
ADXL330
ADXL213
ADXL103
ADXL204
ADXL322
hdd shock sensor
AD8542
ADXL203
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Acceleration
Abstract: No abstract text available
Text: 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
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Acceleration
Abstract: KXP74-2050
Text: AN 019 Using Two Tri-Axis Accelerometers for Rotational Measurements Introduction In many applications, customers would like to measure rotational motions angular velocity, angular acceleration in addition to linear motions. Most often, gyroscopes are added to their end product to obtain the rotational information. In some
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fetal monitor device circuit diagrams
Abstract: doppler heart fetal block diagram FETAL HEART RATE MONITOR spo2 circuit algorithm fetal doppler sensors i.mx53 pulse oximetry sensor circuit fetal heart doppler circuit diagram of blood glucose meter microcontroller digital blood pressure circuit di
Text: Medical Applications User Guide freescale.com/medical Table of Contents Introduction 1.1 Freescale Offers Technology for Life . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 1.2 Welcome to Freescale Medical Solutions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
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MDAPPUSGDRM118
fetal monitor device circuit diagrams
doppler heart fetal block diagram
FETAL HEART RATE MONITOR
spo2 circuit algorithm
fetal doppler sensors
i.mx53
pulse oximetry sensor circuit
fetal heart doppler
circuit diagram of blood glucose meter
microcontroller digital blood pressure circuit di
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Acceleration
Abstract: No abstract text available
Text: AN 021 Self Test Response Introduction Self Test is a standard feature in Kionix MEMS accelerometers that enables our customers to verify that the part is functional. However the customer must use the proper algorithm to ensure functionality. Applicable theories, plots, and equations
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AN-00MX-007
Abstract: aCCELEROMETER APPLICATION CIRCUIT Introduction to accelerometers RD-00MX-001 AN-00MX-006 3 axis Accelerometers for rotation sensing digital accelerometer circuit diagram MXA2500EL ACCELEROMETER using CIRCUIT RD-00MX-002
Text: Application Note #AN-00MX-015 Inclination Sensing of Digital Projector for Correction of Image Distortion and Inversion Introduction This document describes different methods to measure the inclination of a Digital Projector with MEMSIC thermal accelerometers. The
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AN-00MX-015
AN-00MX-007
AN-00MX-015
aCCELEROMETER APPLICATION CIRCUIT
Introduction to accelerometers
RD-00MX-001
AN-00MX-006
3 axis Accelerometers for rotation sensing
digital accelerometer circuit diagram
MXA2500EL
ACCELEROMETER using CIRCUIT
RD-00MX-002
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AN3447
Abstract: Calibration Technique for Accelerometers accelerometer sensor MMA73XOL MMA73x0L AN1636 MMA7330L MMA7340L MMA7360L
Text: Freescale Semiconductor Application Note AN3447 Rev 0, 03/2007 Implementing Auto-Zero Calibration Technique for Accelerometers by: Kimberly Tuck Accelerometer Systems and Applications Engineering Tempe, AZ INTRODUCTION This application note describes why it is important to
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AN3447
MMA73x0L
AN3447
Calibration Technique for Accelerometers
accelerometer sensor
MMA73XOL
AN1636
MMA7330L
MMA7340L
MMA7360L
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Acceleration
Abstract: No abstract text available
Text: AN 013 Position determination using Accelerometers Introduction Quite often the possibility of using accelerometers to track position is investigated. We present in this application note the considerations that must be made for using accelerometers in position determination.
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Abstract: No abstract text available
Text: 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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Abstract: No abstract text available
Text: AN 028 Getting Started with the KXCJ9 Introduction This application note will help developers quickly implement proof-of-concept designs using the KXCJ9 tri-axis accelerometer. Please refer to the KXCJ9 data sheet for additional implementation guidelines. While Kionix strives to ensure that our accelerometers will meet
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Abstract: No abstract text available
Text: AN 028 Getting Started with the KXCJ9 Introduction This application note will help developers quickly implement proof-of-concept designs using the KXCJ9 tri-axis accelerometer. Please refer to the KXCJ9 data sheet for additional implementation guidelines. While Kionix strives to ensure that our accelerometers will meet
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Abstract: No abstract text available
Text: VI. ACCELEROMETER MOUNTING CONSIDERATIONS INTRODUCTION An accelerometer is an instrument which senses the motion of the surface to which it is attached mounted , producing an electrical output signal analogous to that motion. The ability to couple motion
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16f648
Abstract: MXS2020E AN-00MX-007 MXS2020EL mxs2020 AN00MX-006 RD-00MX-001 inclinometer sensor 017630 ay 013
Text: Reference Design #RD-00MX-001 Temperature Compensated 360° Inclinometer with Asynchronous Serial Output Block Diagram Introduction The thermal accelerometers from MEMSIC are very low cost, dual axis, linear motion sensors with integrated mixed signal conditioning. To measure
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RD-00MX-001
MXS2020E
MXS2020EL
ANGLE/40)
RD-00MX-001
16f648
MXS2020E
AN-00MX-007
mxs2020
AN00MX-006
inclinometer sensor
017630
ay 013
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Untitled
Abstract: No abstract text available
Text: 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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Acceleration
Abstract: No abstract text available
Text: 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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Acceleration
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Acceleration
Abstract: No abstract text available
Text: AN 039 Getting Started with the KXCJK Introduction This application note will help developers quickly implement proof-of-concept designs using the KXCJK tri-axis accelerometer. Please refer to the KXCJK data sheet for additional implementation guidelines. While Kionix strives to ensure that our accelerometers will meet
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accelerometer
Abstract: gravity sensor MARQUARDT gravity sensor in degree Introduction to accelerometers resolver sensor
Text: Application Note #AN-00MX-014 Low g Accelerometer Non-Linearity Measurement Introduction This document describes a method to measure accelerometer non-linearity using gravity as the input reference. The output of accelerometers are specified by several parameters, i.e. alignment,
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AN-00MX-014
AN-00MX-014
accelerometer
gravity sensor
MARQUARDT
gravity sensor in degree
Introduction to accelerometers
resolver sensor
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Acceleration
Abstract: No abstract text available
Text: 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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Abstract: No abstract text available
Text: AN 038 Getting Started with the KXTJ2 Introduction This application note will help developers quickly implement proof-of-concept designs using the KXTJ2 tri-axis accelerometer. Please refer to the KXTJ2 data sheet for additional implementation guidelines. While Kionix strives to ensure that our accelerometers will meet design expectations
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Untitled
Abstract: No abstract text available
Text: 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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Colibrys
Abstract: ms 6100 ms6100 sck 104 capacitor micromechanical
Text: MS 6XXX Calibrated Low-Power Accelerometer Product description Introduction The sensor is fully self-contained, needs no external operational components and is packaged in a TO-8 housing. The MS 6XXX series accelerometers are low-power, calibrated, robust and stable
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AN3461
Abstract: Tilt Sensors degree 3 axis AN3447 gravity sensor 2251 ACCELEROMETER 3 axis Accelerometers for rotation sensing 7441 sensor BIT 3713 trigonometry 74716
Text: AN3461 Rev 2, 06/2007 Freescale Semiconductor Application Note Tilt Sensing Using Linear Accelerometers by: Kimberly Tuck Accelerometer Systems and Applications Engineering Tempe, AZ INTRODUCTION This application note explains the importance of understanding how to acquire a reliable and accurate tilt
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AN3461
AN3461
Tilt Sensors degree 3 axis
AN3447
gravity sensor
2251 ACCELEROMETER
3 axis Accelerometers for rotation sensing
7441 sensor
BIT 3713
trigonometry
74716
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piezoelectric cantilever
Abstract: wheatstone bridge piezoelectric transducer force Piezo Ceramic shock sensors servo accelerometer piezoelectric contact accelerometer Introduction to accelerometers Piezo Ceramic plates TCS weighing scale calibration instrumentation amplifier for piezoelectric sensors disc Piezoelectric Sensor
Text: Product Information Notes Understanding Accelerometer Technology INTRODUCTION Tremendous advances in accelerometer technology are Frame for Support enabling new applications to become economically feasible and are revolutionizing traditional accelerometer markets.
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inclinometer sensor with compass
Abstract: inemo iNEMOEngine_PW8
Text: UM1486 User manual iNEMOENgine_PW8 software package Introduction This document describes the features of the iNEMOENgine_PW8 software package and the device firmware upgrade DFU procedure to upload it to the microcontroller of the STEVALMKI119V1 MEMS sensor demonstration kit.
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STEVALMKI119V1
UM1486
inclinometer sensor with compass
inemo
iNEMOEngine_PW8
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