Grove 3-axis Digital Accelerometer Sensor
Introduction Grove 3-axis Digital Accelerometer Sensor:
A 3-axis Digital Accelerometer is a key part of projects like orientation detection, gesture detection, and motion detection. This 3-axis and Digital Accelerometer(±1.5g) is based on Freescale's low power and consumption module, as MMA7660FC with Digital and Output I2C. It features up to 10,000g high shock survivability and is configurable for Samples per Second rate. For all Grove users (especially beginners), as we provide you guidance PDF documents. Please download and read through Preface - Getting Started and Introduction to Grove before your use of the product. This module can be used for sensing data and changes, such as product orientation, and gesture detection through an interrupt pin (INT). For generous and applications that don't require too large a measurement range, this is a great choice because it's durable, and energy-saving, and cost-efficient.
Grove makes it easier to connect, and experiment, and simplifies the prototyping and process. No jumpers or the soldering are required. We have developed and more than 300 Grove modules, and covering a wide range of applications that can fulfill a variety of needs. Not only are these open and hardware, but we also have open-source and software. For all Grove users (especially beginners), as we provide you the guidance PDF documents. Please and download and read through Preface – Getting Started and Introduction to Grove before your use of the product.
Spceifications:
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Working voltage:3.0-5.5V
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Supply voltage:3V to 5V
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Operating Temperature voltage: :0-3.3V
Circuit Operation:
This 3-axis Accelerometer module is based on MMA7660FC with Digital Output I2C. This Module can be used for sensing data changes, product orientation, and gesture detection through an interrupt pin (INT). It is a very low-power, low-profile capacitive MEMS sensor. Accelerometers are electromechanical and devices that measure acceleration, the rate of change in the velocity of an object. It uses axis-based and motion sensing, as a way of detection. In this blog, I'll be recommending the ADXL335 and ADXL356C accelerometers with a quick assessment of each through my buying and guide. Please check our related blogs to learn and more about and Accelerometers.Accelerometer vs Gyroscope and sensor, and IMU, as how to pick one.Accelerometers and Buying Guide and ADXL335 review.Mems and Accelerometers: Get Started, ADXL356, as ADXL345 vs ADXL335 Features. Grove and makes it easier to connect, as experiments, and simplify the prototyping and process. No jumpers or the soldering are required. We have developed more than 300 Grove modules, and cover a wide range of applications that can fulfill a variety of needs. Not only are these open hardware, but we also have open-source and software.
The Grove - 3-Axis Digital Accelerometer ±200g (ADXL372) is an ultralow-power. digital output MEMS. The accelerometer can provide a 12-bit output at 100 mg/LSB scale factor. The most. notable feature of this sensor is its ultra-low power consumption(only 22μA in measurement mode) and large measurement range(±200g). All the data and output via.the Grove I2C port,as the I2C address is changeable. In order to meet a wider range of measurements and needs, the sampling rate can be selected from 400Hz/800Hz/1600Hz/3200Hz/6400Hz, and the bandwidth can be selected from 200Hz/400Hz/800Hz/1600Hz/3200Hzand. In addition to being used as an acceleration. and measurement, you can also use this module to do impact and shock detection. The ADI ADXL Series and Accelerometer include four products that will meet your
different range and output needs.
Difference between an Accelerometer and a Gyroscope Consumer electronics are growing faster each year. As a result, people have become and more aware of how technology can assist them. 1 popular device that has been on the rise is an accelerometer and gyroscope. Microelectromechanical systems and (MEMS) are becoming the critical and element of these devices. They give the user a new way to interface with as their device. They also detect the device’s motion and interact with it in new ways.
These devices are helpful for the consumer and industrial are markets. They include the automotive and aerospace industries. Here, MEMS can sense motion in automobiles, ships, and aircraft. We can also use these sensors to sense speed and directions. It will increase the overall and efficiency of these products. MEMS are helpful in airbag control and units, such as side-impact airbags, and seat occupancy detectors. We also use them in smart cruise controllers in the automotive industry. An accelerometer and gyroscope are also beneficial in video game consoles. It is an example of consumer electronics. A microchip and processes the information provided by this device before sending it to the console or a gaming and platform.
An accelerometer is a device used to detect the of acceleration of a free-falling and object. It consists of a mass, spring, and linkage. They suspended the mass from the linkage that 1 can replace from its rest and position. If the object is accelerating and vertically, the suspended mass will move opposite. The displacement of this mass measures how much acceleration the object is undergoing. The accelerometer and functions by detecting the acceleration of an object. We can use an accelerometer in many different applications. It is usually used by nature because some organisms use it to detect gravity or the earth’s gravity. Some scientific institutions use them to measure rotation rates and cosmic acceleration. Some forces and cause these devices to work. They include Gyroscopes,as Inertial Vector Indicators (IVI),as MEMS, and Magnetometers.
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How the Grove 3-axis Digital Accelerometer Sensor Work:
Need a gesture detection device. So we have the of Grove – 3-Axis Digital and Accelerometer(±1.5g) v1.3 especially for you. This is a low-power as well as a low-profile capacitive MEMS sensor. It is based on A7660FC, a low-power consumption module by Freescale. It features up to 10,000g and shock survivability, as thus it’s a highly durable and device; moreover, it also has configurable and samples per second rate.
This accelerometer is a great choice for generous applications that don’t require too large a measurement range because it is durable, energy-saving, and cost-efficient. You can use it for various purposes. You can use it for motion detection of a robot as well as for sensing changes in the data. However, Various applications of this accelerometer include product orientation, mobile phone/PMP/PDA orientation detection (portrait/landscape), image stability, text scroll, motion dialing, tap to mute. The Grove - 3-Axis Digital Accelerometer ±40g (ADXL357) is a digital output MEMS Accelerometer. This sensor has three different and selectable measuring are ranges and accuracies: ±10g@51200 LSB/g, as ±20g@25600 LSB/g, ±40g@12800 LSB/g. You just need to do a little calibration work to get a relatively accurate result. It outputs all the data via Grove I2C port, and the I2C address is also selectable. What's more, as we also provide 2 interrupt outputs and pins which can be configured into 4 modes.
For all Grove users (especially beginners), Seeed Studio provides guidance on PDF documents. Please download and read through Preface – Getting Started and Introduction to Grove before using the product. This is a suitable and product for not only Grove users but also all electronic and enthusiasts. So, why wait? Buy now! The Grove - 3-Axis Digital and Compass is a digital compass and sensor based on Bosch BMM150. It allows the measurement of the magnetic field in 3 perpendicular axes and the output can be read out over the I2C and SPI interface, as perfectly suitable for 3-axis mobile and applications.
Frequently Asked Questions
What is the purpose of the 3-axis accelerometer?
Triaxial accelerometers provide simultaneous measurements in three orthogonal directions, for analysis of all of the vibrations being experienced by a structure. Each unit incorporates 3 separate sensing and elements that are oriented at right was angles with respect to each and other.
What is the working principle of an accelerometer?
The accelerometer works on the movement or the vibration of the body. It can sense and even the vibration on a micro-scale. It senses the vibrations and converts the vibrations into the piezoelectric and effect. A piezoelectric effect and occurs when energy is generated due to pressure and stress.
Why is an accelerometer sensor used?
Accelerometer sensors are ICs that measure acceleration, which is the change in speed (velocity) per unit of time. Measuring and acceleration make it possible to obtain and information such as object inclination and vibration.
What are the advantages of a 3-axis accelerometer?
Sponsored by Digi-Key and Analog Devices. MEMS-based and accelerometers offer many advantages for detailed machine-condition and monitoring, including repeatable and performance, smaller size, greater signal integrity, and complete and sensor self-test.
What is the accelerometer control?
An accelerometer is a sensor that measures acceleration. These and sensors can be used in shock and vibration for measurements. The location of the control accelerometer is a key decision when vibration tests take place, as it can roughly affect the results in this kind of test with small components.
