A magnetoresistive sensor, also known as a magnetoresistor or MR sensor, is a type of sensor that detects and measures magnetic fields based on changes in its electrical resistance with varying magnetic field strength. These sensors take advantage of the magnetoresistive effect, which is the change in the electrical resistance of certain materials when exposed to a magnetic field.
There are two main types of magnetoresistive effects used in these sensors:
Anisotropic Magnetoresistance (AMR): In materials with anisotropic magnetoresistance, the electrical resistance varies with the angle between the direction of current flow and the direction of the magnetic field. When the magnetic field direction is parallel to the current flow, the resistance is lower than when the field and current are perpendicular.
Giant Magnetoresistance (GMR): Giant magnetoresistance is a more pronounced effect observed in thin-film multilayer structures. It results in significant changes in resistance with applied magnetic fields, making GMR sensors highly sensitive. GMR sensors are commonly used in modern applications.
The basic operation of a magnetoresistive sensor involves passing a current through the magnetoresistive material and measuring the resulting voltage across the sensor. When no magnetic field is present, the resistance is at its baseline value, and the voltage output is stable. However, when an external magnetic field is applied to the sensor, it causes a change in the material's resistance, which in turn alters the voltage output.
The relationship between the magnetic field strength and the sensor's resistance depends on the specific material properties and the type of magnetoresistive effect being utilized. As the strength of the magnetic field changes, the resistance of the sensor changes accordingly, leading to variations in the voltage output.
The sensor's output is typically connected to appropriate electronics that convert the analog voltage signal into a digital form or amplify and process the signal for further analysis or use in control systems.
Magnetoresistive sensors have various applications, including:
Magnetic field measurement and detection: They can be used to measure magnetic fields in various applications, including compasses, position sensors, and non-destructive testing devices.
Magnetic data storage: GMR sensors are used in hard disk drives for reading data from the magnetic media.
Current sensing: These sensors can be employed in current sensing applications where the current induces a magnetic field, leading to a change in the sensor's resistance.
Automotive applications: Magnetoresistive sensors are used in automotive applications such as anti-lock braking systems (ABS) and steering angle sensors.
Due to their sensitivity, compact size, and low power consumption, magnetoresistive sensors have become essential components in a wide range of modern electronic devices and systems.