An accelerometer is a device that measures acceleration forces, either static like gravity or dynamic caused by movement. It works by measuring the displacement of a spring-loaded mass. Accelerometers are used in many applications including tilt sensing, movement detection, freefall detection, car crash detection, medical devices, navigation, and more. There are 2-axis and 3-axis accelerometers, with the 2-axis Memsic 2125 measuring acceleration on two axes and the 3-axis MMA7260 measuring on three axes with selectable sensitivity ranges. An accelerometer's output can be read to detect changes in acceleration on each axis.
2. Accelerometer An accelerometer is a device that measures the proper acceleration of the device. It is an electromechanical device that will measure acceleration forces. These forces may be static, like the constant force of gravity pulling at your feet, or they could be dynamic - caused by moving or vibrating the accelerometer.
3. Conti.. An accelerometer measures weight per unit of (test) mass, a quantity also known as specific force, or g-force. Most accelerometers do not display the value they measure, but supply it to other devices. Conceptually, an accelerometer behaves as a damped mass on a spring. When the accelerometer experiences an acceleration, the mass is displaced to the point that the spring is able to accelerate the mass at the same rate as the casing. The displacement is then measured to give the acceleration.
4. What are accelerometers useful for? By measuring the amount of static acceleration due to gravity, you can find out the angle the device is tilted at with respect to the earth. By sensing the amount of dynamic acceleration, you can analyze the way the device is moving. An accelerometer can help your project understand its surroundings better.
5. Conti.. In the computing world, IBM and Apple have recently started using accelerometers in their laptops to protect hard drives from damage. If you accidentally drop the laptop, the accelerometer detects the sudden freefall, and switches the hard drive off so the heads don't crash on the platters. In a similar fashion, high g accelerometers are the industry standard way of detecting car crashes and deploying airbags at just the right time.
6. Applications Engineering Biology Industry Building and structural monitoring Medical applications Navigation Transport And more…
8. 2-Axis Accelerometers Memsic 2125 Dual-axis Accelerometer The Memsic 2125 is a low cost, dual-axis thermal accelerometer capable of measuring tilt, acceleration, rotation, and vibration with a range of ±3 g. For integration into existing applications, the Memsic 2125 is electrically compatible with other popular accelerometers.
9. Conti.. Features: - Measures ±3 g on each axis - Simple pulse output of g-force for each axis - Convenient 6-pin 0.1" spacing DIP module - Analog output fo temperature (Tout pin) - Low current at 3.3 or 5 V operation: less than 4 mA at 5 VDC .
10. Sample Applications: -Dual-axis tilt sensing for autonomous robotics applications - Single-axis rotational position sensing - Movement/Lack-of-movement sensing for alarm systems - R/C hobby projects such as autopilots
11. Key Specifications: - Power requirements: +3.3 to +5 VDC - Communication: TTL/CMOS compatible 100 Hz PWM - output signal with duty cycle proportional to acceleration - Dimensions: 0.42 x 0.42 x 0.45 in (10.7 x 10.7 x 11.8 mm) - Operating temp range: 32 to +158 °F (0 to +70 °C)
12. 3-axis accelerometer Triple-axis accelerometer with 3 analog outputs for X, Y and Z axis measurements on a 0.75"x0.75" breakout board. MMA7260 is 3-axis accelerometer and measure the accelerations in X Y and Z axis with range +-1.5 g to 6 g.
13. Conti.. Features -Selectable Sensitivity (1.5g/2g/4g/6g) -Low Current Consumption: 500 μA -Sleep Mode: 3 μA -Low Voltage Operation: 2.2 V – 3.6 V -6mm x 6mm x 1.45mm QFN -High Sensitivity (800 mV/g @ 1.5g) -Fast Turn On Time -Integral Signal Conditioning with Low Pass Filter -Robust Design, High Shocks Survivability -Pb-Free Terminations -Low Cost
14. Typical Applications -HDD MP3 Player: Freefall Detection -Laptop PC: Freefall Detection, Anti-Theft -Cell Phone: Image Stability, Text Scroll, Motion Dialing, E-Compass -Pedometer: Motion Sensing -PDA: Text Scroll -Navigation and Dead Reckoning: E-Compass Tilt Compensation -Gaming: Tilt and Motion Sensing, Event Recorder -Robotics: Motion Sensing
15. How to use In Accelerometer we can read the change in output values corresponding to the change in X-axis, Y-axis and Z-axis. Connect these PINS to the ADC pins of Atmega8. The varying output at the pins is reflected to ADC and the converted digital values can be displayed on LCD display. Calibration of the accelerometer can be done by giving the reference values in programs
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18. MADE BY SUMIT BALGUVHAR M.TECH-EMBEDDED SYSTEM TECHNOLOGY sumitbalguvhar783@gmail.com