Introduction
The geomagnetic field simulation system is independently developed and produced by SMAGALL, and is used to simulate magnetic fields of different intensities. The system can also simulate geomagnetic field values around the world according to longitude, latitude and altitude. The system can simulate the magnetic field with different intensities depending on the customer’s demand. Users can customize the Helmholtz coil with different sizes, and specify a different uniformity area and uniformity index.
The geomagnetic field simulation system is independently developed and produced by SMAGALL, and is used to simulate magnetic fields of different intensities. The system can also simulate geomagnetic field values around the world according to longitude, latitude and altitude. The system can simulate the magnetic field with different intensities depending on the customer’s demand. Users can customize the Helmholtz coil with different sizes, and specify a different uniformity area and uniformity index.
Provide customers with high quality products, solutions and services to
achieve the common success of enterprises and employees.
Introduction
The magnetic sensor calibration system is independently developed and manufactured by SMAGALL. It can be used to measure the performance index of a sensor range, DC linearity, AC linearity, frequency response, stability, orthogonality, and noise, among other capabilities. The stability and noise test of the system is measured using the magnetic shielding barrel, which is sold separately.
Features
The system runs well for long periods of time, with high measurement accuracy and uniformity; Automatic measurement by software control, simple operation and accurate results;
Application
Used to measure and adjust the performance index of magnetic sensor
Introduction
The magnetic sensor calibration system is independently developed and manufactured by SMAGALL. It can be used to measure the performance index of a sensor range, DC linearity, AC linearity, frequency response, stability, orthogonality, and noise, among other capabilities. The stability and noise test of the system is measured using the magnetic shielding barrel, which is sold separately.
Features
The system runs well for long periods of time, with high measurement accuracy and uniformity; Automatic measurement by software control, simple operation and accurate results;
Provide customers with high quality products, solutions and services to
achieve the common success of enterprises and employees.
Introduction
The magnetic field rotating simulator is a product independently developed and produced by SMAGALL for simulating an alternating magnetic field. The product is composed of a magnetic field rotating generator, 4 induction coil plates, and connecting cables. At 60 rpm, all sectors 8, 16 and 32 of the resistivity imager can be filled, and the detection of the resistivity imager can be realized by filling the sector data.
Features
Real time display of current speed and magnetic field strength of each plate;
Easy to carry, simple and reliable operation.
Application
Workshop test with resistivity imager to simulate a real drilling rotary environment
The magnetic field rotating simulator is a product independently developed and produced by SMAGALL for simulating an alternating magnetic field. The product is composed of a magnetic field rotating generator, 4 induction coil plates, and connecting cables. At 60 rpm, all sectors 8, 16 and 32 of the resistivity imager can be filled, and the detection of the resistivity imager can be realized by filling the sector data.
Provide customers with high quality products, solutions and services to
achieve the common success of enterprises and employees.
Introduction
The magnetic gradient tensor array system is composed of a data acquisition box (up to 5 CAN interface data acquisition modules can be integrated inside), magnetic sensor, upper computer software, among other components. The system uses a 24V power supply, realizes synchronous acquisition of magnetic field data in the area to be measured. In addition, the system can communicate with PCs by utilizing a CAN bus.
Features
Reliable communication and strong anti-interference ability
Application
Magnetic gradient tensor testing system
The magnetic gradient tensor array system is composed of a data acquisition box (up to 5 CAN interface data acquisition modules can be integrated inside), magnetic sensor, upper computer software, among other components. The system uses a 24V power supply, realizes synchronous acquisition of magnetic field data in the area to be measured. In addition, the system can communicate with PCs by utilizing a CAN bus.
Provide customers with high quality products, solutions and services to
achieve the common success of enterprises and employees.
Introduction
The digital magnetic measurement unit is a product developed by SMAGALL specifically for multi array magnetic measurement. In general, multiple magnetic measurement units are used to build a digital magnetic measurement system. The digital magnetic measurement unit consists of a high-performance fluxgate sensor, 24 bit high-precision data acquisition and power supply. The product communicates with external equipment through a RS485 or CAN bus, which provides easy use and reliability.
Features
High integration, small size
Application
Ship magnetic field measurement, magnetic array measurement
The digital magnetic measurement unit is a product developed by SMAGALL specifically for multi array magnetic measurement. In general, multiple magnetic measurement units are used to build a digital magnetic measurement system. The digital magnetic measurement unit consists of a high-performance fluxgate sensor, 24 bit high-precision data acquisition and power supply. The product communicates with external equipment through a RS485 or CAN bus, which provides easy use and reliability.
Provide customers with high quality products, solutions and services to
achieve the common success of enterprises and employees.