A CMOS Hall sensor modeling with readout circuitry and microcontroller processing for magnetic detection

A Hall sensor array system for magnetic field detection and analysis is realized in X-FAB 0.18 mu m CMOS technology. Magnetic field detection is attributed to the magnetization of metal coils to metal particles and the sensing characteristics of the Hall sensor array. The system puts forward a complete solution from Hall sensors, analog front-end circuit, analog-to-digital converter (ADC) to microcontroller unit. Using Ansoft Maxwell and COMSOL Multiphysics software for simulation verification, the minimum diameter of magnetic particles that can be detected in the system is 2 mu m. The measured signal to noise and distortion ratio, spurious free dynamic range, and effective number of bits of the proposed ADC are 70.61 dB, 90.08 dB, and 11.44-bit, respectively. The microsystem based on STM32 combines hardware and software design, which can effectively adjust the motion parameters and realize the real-time display in the LCD screen of the magnetic field and voltage information. Compared to the prior system, the portability, cost, and efficiency have been considerably improved, which is aimed at the rapid measurement of heavy metal particles such as Fe, Co, and Ni in ambient air and blood.

Automated summary

The Hall sensor array system for magnetic field detection and analysis utilizes X-FAB 0.18 μm CMOS technology to detect metal particles as small as 2 μm in diameter. The microsystem, based on STM32, combines hardware and software design to achieve real-time display and parameter adjustment. Compared to previous systems, the portability, cost, and efficiency have been significantly improved for rapid measurement of heavy metal particles.