The below figure shows the Magnetoresistive effect.
When the current is passed through the ferromagnetic material the internal magnetisation vector(M) of the ferromagnetic material is parallel to the current flow. When an external magnetic field is applied in applied opposite to the direction of the current flow as shown in the figure the internal magnetisation vector changes its position(M1) by an angle depending on the strength of the magnetic field. The resistance depends on the angle formed by the internal magnetisation vector(M) of the ferromagnetic material and the direction of the current(I) flow. Resistance is largest if the current flow and the internal magnetisation vector are parallel. The resistance in ferromagnetic material is smallest if the angle is 90° between the current flow and the internal magnetisation vector.
Normally 4 sensors are connected in a Wheatstone bridge configuration to form a complete MGR sensor with each resistor arranged to maximize sensitivity and minimize temperature influences. In the presence of a magnetic field, the values of the resistors change, causing a bridge imbalance and generating an output voltage proportional to the magnetic field strength. The Wheatstone bridge configuration provides reduction of temperature drift and doubles the signal output
The advantages of MGR sensor are
- Non contact operation so there is no wear and friction. Hence unlimited number of operating cycles
- high reliability due to their rugged construction
- Low and stable offset
- Due to its high sensitivity it can be used to measure weak magnetic fields
- Low sensitivity to mechanical stress
- Much more Insensitive to vibrations than inductive sensors
- high operating temperature
- wide operating frequency range (0 Hz to 1 MHz)
- can be used in harsh environments
- Reasonable cost
- can measure zero speed
- small size
- fast response
The disadvantages of MGR sensor are
- Sensitive to interfering magnetic fields. Very strong magnetic field can damage the sensor
- Temperature drift
- Limited linear range
- Poor temperature characteristics
Some of the applications of MGR sensor are
- wheel speed sensors
- angle measurement
- linear displacement measurement
- current measurement
- Earth magnetic field detection for compass and navigation applications
- Metal detection
- Magnetic field measurement