DESIGN OF DC RESISTIVITYMETER INSTRUMENT BASED MICROCONTROLLER
Geoelectric measurements are widespread and have many benefits. Some of them are natural resource exploration, minerals, archeology, groundwater exploration, agriculture and so on. The tool used in geoelectric exploration is a resistivitymeter. Resistivitymeter works by injecting current into the...
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id-itb.:640942022-03-29T08:27:35ZDESIGN OF DC RESISTIVITYMETER INSTRUMENT BASED MICROCONTROLLER Kusuma Rahman Hakim, Dana Indonesia Final Project current, geoelectric, potential difference, resistivitymeter INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/64094 Geoelectric measurements are widespread and have many benefits. Some of them are natural resource exploration, minerals, archeology, groundwater exploration, agriculture and so on. The tool used in geoelectric exploration is a resistivitymeter. Resistivitymeter works by injecting current into the ground through the current electrode and then measuring it at the voltage electrode. Through the results of calculations with Ohm's law by taking into account the geometry factor, the resistivity value will be obtained. By looking at the resistivity value, it can be seen that there are anomalies that can be interpreted as mineral content, water, and so on in the measurement area. In this study, the manufacture of resistivitymeter refers to the sensitivity of current and potential difference. The ultimate goal of this research is the manufacture of a DC Resistivitymeter that can be controlled automatically or manually with the accuracy of the measurement values with existing instruments. The results of these measurements will then be compared with the Deko-86D, Sanwa-CD800a, and Rigol DM-3068 multimeters, and will be compared with existing geoelectric instruments, namely the Ministing. In laboratory scale measurements, the average voltage accuracy is 99.978% and the current accuracy average is 99.885% against the Rigol-DM3068 multimeter. In field-scale measurements, the average current accuracy is 99.087% and the average resistance accuracy is 99.068% for the Ministing geoelectric instrument. text |
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| description |
Geoelectric measurements are widespread and have many benefits. Some of them
are natural resource exploration, minerals, archeology, groundwater exploration,
agriculture and so on. The tool used in geoelectric exploration is a
resistivitymeter. Resistivitymeter works by injecting current into the ground
through the current electrode and then measuring it at the voltage electrode.
Through the results of calculations with Ohm's law by taking into account the
geometry factor, the resistivity value will be obtained. By looking at the resistivity
value, it can be seen that there are anomalies that can be interpreted as mineral
content, water, and so on in the measurement area. In this study, the manufacture
of resistivitymeter refers to the sensitivity of current and potential difference. The
ultimate goal of this research is the manufacture of a DC Resistivitymeter that can
be controlled automatically or manually with the accuracy of the measurement
values with existing instruments. The results of these measurements will then be
compared with the Deko-86D, Sanwa-CD800a, and Rigol DM-3068 multimeters,
and will be compared with existing geoelectric instruments, namely the Ministing.
In laboratory scale measurements, the average voltage accuracy is 99.978% and
the current accuracy average is 99.885% against the Rigol-DM3068 multimeter.
In field-scale measurements, the average current accuracy is 99.087% and the
average resistance accuracy is 99.068% for the Ministing geoelectric instrument. |
| format |
Final Project |
| author |
Kusuma Rahman Hakim, Dana |
| spellingShingle |
Kusuma Rahman Hakim, Dana DESIGN OF DC RESISTIVITYMETER INSTRUMENT BASED MICROCONTROLLER |
| author_facet |
Kusuma Rahman Hakim, Dana |
| author_sort |
Kusuma Rahman Hakim, Dana |
| title |
DESIGN OF DC RESISTIVITYMETER INSTRUMENT BASED MICROCONTROLLER |
| title_short |
DESIGN OF DC RESISTIVITYMETER INSTRUMENT BASED MICROCONTROLLER |
| title_full |
DESIGN OF DC RESISTIVITYMETER INSTRUMENT BASED MICROCONTROLLER |
| title_fullStr |
DESIGN OF DC RESISTIVITYMETER INSTRUMENT BASED MICROCONTROLLER |
| title_full_unstemmed |
DESIGN OF DC RESISTIVITYMETER INSTRUMENT BASED MICROCONTROLLER |
| title_sort |
design of dc resistivitymeter instrument based microcontroller |
| url |
https://digilib.itb.ac.id/gdl/view/64094 |
| _version_ |
1822276921990316032 |