Magnetoresistive audio pickup

The invention claimed is: 1. A magnetoresistive audio pickup for converting an electromagnetic signal of a speaker to an audio signal, the speaker having a measurement plane above a voice coil surface of the speaker, and the measurement plane having a single component working area thereon; the single component working area being an intersection formed by a linear magnetic field measurement area, an AC magnetic field measurement area and a SNR measurement area on the measurement plane, the magnetoresistive audio pickup comprising: one or more audio pickup circuits and a control circuit, wherein each of the one or more audio pickup circuits includes a linear magnetoresistive sensor, a coupling capacitor, and an AC amplifier, and the control circuit includes an amplifier and a signal processing circuit, the linear magnetoresistive sensor of each of the one or more audio pickup circuits including one or more single-axis linear magnetoresistive sensor units to sense the electromagnetic signal of the speaker from the single component working area, the linear magnetoresistive sensor of each of the one or more audio pickup circuits having a power input end and a signal output end, wherein the signal output end is connected to the AC amplifier via the coupling capacitor to output an AC signal from the AC amplifier to the amplifier of the control circuit, wherein the control circuit is configured to combine the AC signals from each of the AC amplifiers of the one or more audio pickup circuits into one signal that is outputted as the audio signal from the signal processing circuit of the control circuit. 2. The magnetoresistive audio pickup according to claim 1 , further including a controller, wherein each of the one or more audio pickup circuits further includes a linear magnetic field measurement area control circuit for use with the controller to detect whether each of the one or more single-axis linear magnetoresistive sensor units is located on the single component working area of the measurement plane, the linear magnetic field measurement area control circuit being a magnetic switch type control circuit or a DC output type control circuit or both. 3. The magnetoresistive audio pickup according to claim 2 , wherein: when the linear magnetic field measurement area control circuit is the magnetic switch type control circuit, the magnetic switch type control circuit includes a magnetic switch sensor having one or more single-axis magnetic switch sensor units and a comparator, the one or more single-axis magnetic switch sensor units and the one or more single-axis linear magnetoresistive sensor units detected by the one or more single-axis magnetic switch sensor units and located on the single component working area of the measurement plane have the same directions of sensitive axes, respectively, for detecting magnetic fields caused by the electromagnetic signal of the speaker, a signal output end of the one or more single-axis magnetic switch sensor units is connected to the comparator, and the comparator compares a signal from the one or more single-axis linear magnetoresistive sensor units detected by the one or more single-axis magnetic switch sensor units with a reference voltage stored by the comparator to obtain a comparison signal, and outputs the comparison signal into the controller, in order that the controller controls the one or more audio pickup circuit: according to the comparison signal; or when the linear magnetic field measurement area control circuit is the DC output type control circuit, the DC output type control circuit comprises a filter, a prepositive/differential amplifier and a comparator, the signal output end of the one or more single-axis linear magnetoresistive sensor units is connected to the amplifier via the filter to obtain a DC output signal, the DC output signal is compared with the reference voltage stored by the comparator to obtain a comparison signal, and the comparator outputs the comparison signal into the controller, in order that the controller controls the one or more audio pickup circuits according to the comparison signal. 4. The magnetoresistive audio pickup according to claim 3 , wherein the magnetic switch sensor is a combination of discrete elements of at least two single-axis magnetic switch sensor units or a single chip element integrated with the at least two single-axis magnetic switch sensor units. 5. The magnetoresistive audio pickup according to claim 3 , wherein each of the one or more single-axis magnetic switch sensor units is an X-, Y- or Z-axis magnetic switch sensor. 6. The magnetoresistive audio pickup according to claim 3 , wherein each of the one or more single-axis switch sensor units is an all-pole type magnetic switch sensor. 7. The magnetoresistive audio pickup according to claim 3 , wherein when the linear magnetic field measurement area control circuit is the DC output type control circuit, a half-bridge structure includes the two single-axis linear magnetoresistive sensor units of the one or more single-axis linear magnetoresistive sensor units and the signal output end of the half-bridge structure is connected to the prepositive/differential amplifier via the filter; or a full-bridge structure includes the four single-axis linear magnetoresistive sensor units of the one or more single-axis linear magnetoresistive sensor units, and two signal output ends of the full-bridge structure are connected to the prepositive/differential amplifier via the filter, respectively. 8. The magnetoresistive audio pickup according to claim 7 , wherein upper and lower values of linear magnetic fields and upper and lower values of saturation magnetic fields measured by each of the one or more single-axis linear magnetoresistive sensor units are values of operating magnetic fields and restoring the linear magnetic fields measured by each of the one or more single-axis switch sensor units and values of reference signals of a comparator of a DC voltage type control circuit, respectively. 9. The magnetoresistive audio pickup according to claim 2 , wherein the linear magnetic field measurement area control circuit is also used for outputting multiple control signals to respectively control the detected and located one or more single-axis linear magnetoresistive sensor units to switch between a DC power supply and a pulsed power supply for providing power supply to the power input end, and to turn on or turn off one or more powers of the AC amplifiers of one of one or more audio pickup circuits, a power of the amplifier of the control circuit, a power of the signal processing circuit of the control circuit, and magnetically labeled signals. 10. The magnetoresistive audio pickup according to claim 1 , wherein the at least one linear magnetoresistive sensor of the one or more linear magnetoresistive sensor is a combination of discrete elements of at least two single-axis linear magnetoresistive sensor units of the one or more single-axis linear magnetoresistive sensor units or a single chip element integrated with the at least two single-axis linear magnetoresistive sensor units. 11. The magnetoresistive audio pickup according to claim 1 , wherein each of the one or more single-axis linear magnetoresistive sensor units is an X-, Y- or Z-axis sensor. 12. The magnetoresistive audio pickup according to claim 1 , wherein the one or more single-axis linear magnetoresistive sensor units form a half-bridge structure, and the signal output end of the one or more single-axis linear magnetoresistive sensor units formed in the half-bridge structure is further connected to a prepositive AC amplifier via the coupling capacitor, or the one or more single-axis linear magne