The Giant Magneto-Impedance (GMI) is a large change of the impedance of some soft ferromagnetic materials, supplied by an alternating high-frequency excitation current, when they are submitted to an external magnetic field. This thesis presents the design and performance of an original digital architecture for high-sensitivity GMI sensors. The core of the design is a Digital Signal Processor (DSP) which controls two other key elements: a Direct Digital Synthesizer (DDS) and a Software Defined Radio (SDR) or digital receiver. The choice of these digital concepts is justified by the will to reduce the conditioning electronics noise that limits the equivalent magnetic noise level. The latter characterizes the smallest measurable field by the s...
version longue issue de : 7th European Magnetic Sensor and Actuator Conference, EMSA'08, Caen, Franc...
International audienceTwo versions of an operational giant magnetoimpedance (GMI)-based magnetometer...
International audienceMagnetic sensors based on GMI devices are the subject of intensive research, a...
The Giant Magneto-Impedance (GMI) is a large change of the impedance of some soft ferromagnetic mate...
The Giant MagnetoImpedance (GMI) eff ect refl ects the strong dependence of the electrical impedance...
International audience1 INTRODUCTIONThe giant magnetoimpedance (GMI) effect has great potential for ...
International audienceIn the Giant Magneto-Impedance (GMI) sensors, one of the important features th...
International audienceThe performance of giant magneto-impedance (GMI)-based magnetometers is curren...
International audienceThe lowest measurable magnetic field of a high sensitive magnetometer based on...
International audienceAn optimized giant magneto-impedance effect magnetometer has been developed, b...
International audienceThe impact of low frequency magnetization fluctuations on the equivalent magne...
International audienceIncreasing the intrinsic sensitivity of magnetic sensing elements requires the...
International audienceAn optimized giant magneto-impedance effect magnetometer has been developed, b...
International audienceThe digital electronic conditioning for the high sensitivity Giant Magneto-Imp...
International audienceFully digital electronics forworks [1-3]. The promising achievedwhite noise re...
version longue issue de : 7th European Magnetic Sensor and Actuator Conference, EMSA'08, Caen, Franc...
International audienceTwo versions of an operational giant magnetoimpedance (GMI)-based magnetometer...
International audienceMagnetic sensors based on GMI devices are the subject of intensive research, a...
The Giant Magneto-Impedance (GMI) is a large change of the impedance of some soft ferromagnetic mate...
The Giant MagnetoImpedance (GMI) eff ect refl ects the strong dependence of the electrical impedance...
International audience1 INTRODUCTIONThe giant magnetoimpedance (GMI) effect has great potential for ...
International audienceIn the Giant Magneto-Impedance (GMI) sensors, one of the important features th...
International audienceThe performance of giant magneto-impedance (GMI)-based magnetometers is curren...
International audienceThe lowest measurable magnetic field of a high sensitive magnetometer based on...
International audienceAn optimized giant magneto-impedance effect magnetometer has been developed, b...
International audienceThe impact of low frequency magnetization fluctuations on the equivalent magne...
International audienceIncreasing the intrinsic sensitivity of magnetic sensing elements requires the...
International audienceAn optimized giant magneto-impedance effect magnetometer has been developed, b...
International audienceThe digital electronic conditioning for the high sensitivity Giant Magneto-Imp...
International audienceFully digital electronics forworks [1-3]. The promising achievedwhite noise re...
version longue issue de : 7th European Magnetic Sensor and Actuator Conference, EMSA'08, Caen, Franc...
International audienceTwo versions of an operational giant magnetoimpedance (GMI)-based magnetometer...
International audienceMagnetic sensors based on GMI devices are the subject of intensive research, a...