The Magnetic Hall Sensor developed at SystematIC Design is engineered to perform reliably across extended temperature ranges from -40°C to 110°C, offering an exceptional degree of sensitivity and precise current sensing capabilities. It operates with a 5.0 V single power supply, ensuring efficient energy consumption without compromising on performance. A standout feature of this sensor is its minimal magnetic hysteresis combined with low offset and thermal coefficients (TC), enhancing the accuracy of measurements.
Designed to handle high dynamics, the sensor maintains operational stability even under substantial common-mode transients greater than 25kV/µs, which is crucial for industrial environments characterized by high electromagnetic interference. Moreover, the device provides a typical bandwidth of 80 kHz, making it an optimal choice for dynamic applications requiring swift response and reliable detection with minimal total output error, typically around ±1.5%.
The robust design is further validated by certifications such as UL and CSA, ensuring high isolation voltage up to 3 kV RMS for one minute. With capabilities to accurately measure current ranges from ±10 A to ±30 A, this sensor proves indispensable for integration into applications demanding high precision and stability under rigorous conditions.
