Pembuatan alat ukur resistivitas yang berbasis mikrokontroler arduino nano menggunakan dua sensor yaitu ACS 712 dan sensor tegangan dilakukan di laboratorium Geofisika UGM, alat telah berhasil dikalibrasi dengan resisitivitymeter OYO 2115A MCoHM. Metode kalibrasi menggunakan resistor sebesar 10.2 Ohm, antara P1, P2 dan antara C1, C2 dipasang resistor geser (Rheostat) sebesar 500 Ohm, dilanjutkan dengan menghitung rata-rata dari standart deviasi ke dua resistivitymeter. Hasil nilai resistansi dari pengukuran menggunakan OYO adalah 10.135 plus minus 0.002 sedangkan resistivitymeter yang dibuat sebesar 10.1 plus minus 0.02, dan resistivitymeter naniura NRD 300 HF standart adalah 14.7 plus minus 2.69, pengujian juga di lakukan di lapangan dengan tiga konfigurasi Schlumberger dengan panjang AB/2 74 meter, konfigurasi Wenner dengan b = 10 meter dan 20 meter, dilanjutkan konfigurasi Dipole-dipole dengan a = 5 meter. Data hasil pengukuran dari resistivitymeter yang dibuat menunjukan data resistivitas yang relatif sama dengan resistivitymeter OYO. Perbedaan nilai resistivitasnya masing-masing adalah OYO 0.02%, resistivitymeter yang dibuat 0.2% dan Naniura 18%.

Research on the production of resistivity measuring devices based on arduino nano microcontroller using two sensors namely ACS 712 and voltage sensor conducted in Geophysics laboratory UGM, the tool has been successfully calibrated with resistivitymeter OYO 2115A MCoHM. Method of calibration uses resistor in the amount of 10 Ohm between P1, P2 and between C1, C2 mounted shear resistor (Rheostat) of 500 Ohm, followed by calculating the average of standard deviation both resistivitymeter. The result of the resistance value (R) of the measurement using OYO is 10.135 plus minus 0.002 while the resistivitymeter made is 10.1 plus minus 0.02, and the naniura NRD 300 HF standard resistivitymeter is 14.7 plus minus 2.69, the test is also done in the field with three Schlumberger configurations with length AB / 2 74 meters, Wenner configuration with b = 10 meters and 20 meters, followed by Dipole-dipole configuration with a = 5 meter. The measurement data from the resistivitymeter made shows the resistivity data which is relatively the same as the OYO resistivitymeter. Differential resistivity values are OYO 0.02%, resistivitymeter made 0.2% and Naniura 18%.

Kata Kunci : Resistivitymeter, Microcontroller, Arduino Nano