Pendeteksi Posisi Menggunakan Sensor Accelerometer MMA7260Q Berbasis Mikrokontroler ATMEGA 32

Muhammad Riyadi; Wahyudi Wahyudi; Iwan Setiawan

doi:10.12777/transmisi.12.2.76-81

DOI: https://doi.org/10.12777/transmisi.12.2.76-81

Pendeteksi Posisi Menggunakan Sensor Accelerometer MMA7260Q Berbasis Mikrokontroler ATMEGA 32

*Muhammad Riyadi - Jurusan Teknik Elektro, Indonesia

Wahyudi Wahyudi - Jurusan Teknik Elektro, Indonesia

Iwan Setiawan - Jurusan Teknik Elektro, Indonesia

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BibTex Citation Data :

@article{Transmisi3603,
    author = {Muhammad Riyadi dan Wahyudi Wahyudi dan Iwan Setiawan},
    title = {Pendeteksi Posisi Menggunakan Sensor Accelerometer MMA7260Q Berbasis Mikrokontroler ATMEGA 32},
    journal = {Transmisi: Jurnal Ilmiah Teknik Elektro},
  volume = {12},
    number = {2},
    year = {2012},
    keywords = {},
    abstract = {  Currently, determining the exact position and orientation in a technical system has an important role, especially in terms of control on a navigation system. One of the instruments used in navigation systems is the Inertial Measurement Unit (IMU). The IMU consists of a combination of the acceleration sensor (accelerometer) and the angular sensor (gyroscope) to track the whereabouts     and     movement     of     an     object.     Accelerometer sensor is one that has undergone a lot of progress and applied to measure the slope, vibration, acceleration, and position. Accelerometer can also be applied to the measurement of earthquake activity and electronic equipment, such as 3-dimensional game, computer mouse, and telephone. For further applications, sensors are widely used for the purposes of naviga  te   in relation to the position of objects.   T  his final   project perform   design and manufacture of instrumentation accelerometer as one component of IMU to detect the position / distance with 3 degrees of freedom. Data obtained from the position of the double integral of the accelerometer output in the form of acceleration. Instrumentation system consists of an accelerometer sensor, signal conditioning, microcontroller ATmega   32   as the main processing unit, and computers that will process data input and display output data using   Visual C#  , while the g  -select function   is used to determine which mode to use the accelerometer to minimize error in the measurement.        Keyword   :   Accelerometer, Microcontroller ATmega 32, Double Integral, Position },
   issn = {2407-6422},   pages = {76--81}  doi = {10.12777/transmisi.12.2.76-81},
    url = {https://ejournal.undip.ac.id/index.php/transmisi/article/view/3603}
}

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Currently, determining the exact position and orientation in a technical system has an important role, especially in terms of control on a navigation system. One of the instruments used in navigation systems is the Inertial Measurement Unit (IMU). The IMU consists of a combination of the acceleration sensor (accelerometer) and the angular sensor (gyroscope) to track the whereabouts and movement of an object. Accelerometer sensor is one that has undergone a lot of progress and applied to measure the slope, vibration, acceleration, and position. Accelerometer can also be applied to the measurement of earthquake activity and electronic equipment, such as 3-dimensional game, computer mouse, and telephone. For further applications, sensors are widely used for the purposes of navigate in relation to the position of objects. This final project perform design and manufacture of instrumentation accelerometer as one component of IMU to detect the position / distance with 3 degrees of freedom. Data obtained from the position of the double integral of the accelerometer output in the form of acceleration. Instrumentation system consists of an accelerometer sensor, signal conditioning, microcontroller ATmega 32 as the main processing unit, and computers that will process data input and display output data using Visual C#, while the g-select function is used to determine which mode to use the accelerometer to minimize error in the measurement.

Keyword : Accelerometer, Microcontroller ATmega 32, Double Integral, Position

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Bagian: Artikel - Teknik Tenaga Listrik

Bahasa : EN

In Vol 12, No 2 (2010): TRANSMISI