JAJSOV6A March 2023 – March 2024 TMAG6180-Q1
PRODUCTION DATA
The single-ended output signals SIN_P, SIN_N, COS_P and COS_N are shown in Figure 6-4. These signals are ratiometric to the supply voltage (VCC). The common-mode voltage (VCM) of the individual signals is half of the supply voltage (VCC /2). For single-ended signals, VOUT is defined as the difference between the maximum and minimum output voltage for a rotating magnetic field. Use Equation 2 to calculate VOUT_SIN_P.
where
Typically, VOUT is around 60% of the supply voltage (VCC). The diagnostic band shown in AMR Sensor Outputs Magnetic Response indicates that the output signals are outside normal operating range and indicates a presence of fault.
The differential sine and cosine output signals shown in Figure 7-13 are generated from the corresponding sine and cosine single-ended outputs. Use Equation 3 and Equation 4 to calculate the differential voltages.
The offset of the differential signals is the average of the maximum and minimum voltages of the sine or cosine signals. Use Equation 5 and Equation 6 to calculate the offsets for the sine and cosine signals.
For single-ended signals, the offset is the common-mode voltage (VCM).
Use Equation 7 to calculate the differential offset for sine and cosine channels at any given temperature, TA.
where
Use Equation 8 and Equation 9 to calculate the amplitudes of the differential signals.
Use Equation 10 to calculate the amplitude for single-ended signals.
Amplitude asynchronism refers to the amplitude mismatch error between sine and cosine channels. Use Equation 11 to calculate the amplitude mismatch error.
The sine and cosine output signals are typically out-of-phase by 90 degrees. However, the sine and cosine outputs from the sensor can be different than the ideal 90 degrees if an internal phase error occurs owing to sensor and other on chip circuitry non-idealities. This error is referred to as the orthogonality error. This error is defined as the angle error between the zero crossing of the cosine output and maximum value of the sine outputs.
The hysteresis error ( ANGhyst) refers to the largest angle error difference between a clockwise rotation and a counter-clockwise rotation.
For the AMR sensor, the orthogonality error and the hysteresis errors are negligible.