• SUMMIT X-ONE data acquisition equipment.
• Vertical geophones with frequencies of 10, 40 and 100 Hz.
• Horizontal geophones with frequencies of 4.5, 8 and 40 Hz.
• 2 Seismic lines of 325 m in length, adaptable to any distance between geophones (minimum 1 meter).
• Array with piezoelectric trigger.
• 48-channel land-streamer adaptable to the geophones used by the ICGC.

Refraction:
0 - 100 m.

Reflection:
0 - 200 m.
 

• Characterization of geological structures (geology).
• Slope stability (geological risks).
• Aquifer study (hydrogeology, environment).
• Degrees of alteration, rippability of formations (geotechnics and civil engineering).
• Location of cavities, landslides (geological risks).
• Location and study of fractures and faults (civil engineering, geotechnics and geological risks).
• Obtaining S-wave velocity models (Vs) (geotechnics, seismology).

• SUMMIT X-ONE data acquisition equipment.
• Vertical geophones with frequencies of 10, 40 and 100 Hz.
• Horizontal geophones with frequencies of 4.5, 8 and 40 Hz.
• Piezoelectric trigger array.

• Obtaining Vs profiles (seismic and civil engineering).
• Material mechanical properties (geotechnics, civil engineering).

• 7 Lennartz triaxial seismometers of 5 s.
• 7 Lennartz triaxial sensor of 20 seconds.
• 14 Sara Digitizers.

• Application to urban areas (urban geology).
• Soil resonance frequency (seismic engineering, civil engineering, geothermal energy).
• Obtaining Vs profiles (geology, seismic engineering).
• Material mechanical properties (geotechnics, civil engineering).

• 7 Instantel Minimate Plus equipment.
• 7 Triaxial geophones with a frequency range between 2 and 250 Hz.

• Vibrations of structures (civil engineering, environment).
• Vibrations induced by blasting (civil engineering, mining).

• SYSCAL PRO resistivity meter.
• 4 Cable reels with 18 connections and a maximum spacing of 5 m between electrodes. Line of 72 electrodes and 355 m long.
• 8 Cable reels with 9 connections and a maximum spacing of 10 m between electrodes. Line of 72 electrodes and 710 m long.
• 72 Stainless steel electrodes.
• 36 Impolarizable electrodes.

• Characterization of geological structures (geology).
• Characterization and monitoring of surface reservoirs (environment, civil engineering).
• Detection of buried objects (archaeology, geotechnics).
• Saline intrusion, soil contamination, water table (hydrogeology, environment).
• Location of cavities, landslides (geological hazards, engineering).

• 3 Magnetotelluric stations, 2 ADU-07e and 1 ADU-08e.
• 12 Impolarizable electrodes.
• 1 SHFT-02 high-frequency induction magnetometer with three built-in coils to measure the three magnetic fields Hx, Hy and Hz (1KHz-524KHz).
• 2 MFS-06e low-frequency induction magnetometers (0.0001Hz-10KHz).
• 4 Medium-low frequency induction magnetometers (0.001Hz-50KHz) MFS-07e.

• Characterization of aquifers, marine intrusion, etc. (hydrogeology, environment).
• Characterization and monitoring of deep reservoirs (environment, civil engineering).
• Location, geometric characterization and study of deep geological structures (geology, mining, geothermal, environment).

• 1 Electric recording probe and natural gamma radiation.
• 1 Dual induction and natural gamma detection probe.
• 1 Full wave sonic probe for small boreholes.
• 1 3-arm calibrating probe (standard model).
• 1 Fluid temperature and conductivity probe.
• 1 High Resolution Acoustic Televiewer Probe (HRAT).
• 1 Data Storage System.
• 1 Automatic Electric Winch ALT: 500 m.

• Reservoir Characterization and Monitoring (Environment, Civil Engineering).
• Detection of the water table, water levels, intrusions and contaminations (Hydrogeology, Environment)
• Detection, geometric characterization of cavities and fractures (Geological hazards, Engineering).
• Geological studies for the geometric characterization of stratification (Geology).
• Geothermal and geophysical parameters (Engineering, Geotechnics, Environment).
• Full wave Vs (Seismology).

• 1 Relative Gravimeter
• Scintrex CG-6 with tripod, GPS antenna and batteries.

• Obtaining subsoil models by contrasting the densities of materials to apply to different fields: complement to geological cartography, for example, the characterization of sedimentary basins or other mineral deposit structures such as salt domes, determination of the depth of the rocky substrate, geotechnics and geological risks (identification of weak geomechanical zones and cavities).