Apparatus and method for in-situ calibration of a photoacoustic sensor

What is claimed is: 1. An apparatus for in-situ calibration of a photoacoustic sensor, the apparatus comprising: a measurement device configured to measure an electric signal at an infrared (IR) emitter of the photoacoustic sensor to generate a measured value of the electric signal, wherein the IR emitter generates an electromagnetic spectrum based on the electric signal; and a calibration unit configured to: generate calibration information, comprising a comparison result, based on comparing the measured value with a comparison value, wherein, when performing the in-situ calibration, the calibration unit is configured to adjust the electric signal based on the calibration information such that the electric signal converges towards the comparison value, or the calibration unit is configured to process an output signal of the photoacoustic sensor based on the calibration information to obtain an adjusted output signal of the photoacoustic sensor. 2. The apparatus according to claim 1 , wherein the calibration unit is configured to adjust the electric signal based on the comparison result to obtain a target value of the electric signal at the IR emitter to perform the in-situ calibration. 3. The apparatus according to claim 2 , wherein the calibration unit is configured to adjust the target value of the electric signal such that a target value of a physical characteristic of the IR emitter is obtained. 4. The apparatus according to claim 1 , further comprising processing circuitry configured to process the output signal of the photoacoustic sensor based on the calibration information to obtain the adjusted output signal of the photoacoustic sensor. 5. The apparatus according to claim 1 , wherein the calibration unit is configured to adjust the electric signal based on the calibration information such that a change of resistance of the IR emitter is compensated. 6. The apparatus according to claim 1 , wherein the electric signal comprises an electric pulse and wherein the calibration unit is configured to calculate a time constant of the photoacoustic sensor from a physical characteristic of the IR emitter that changes based on the electric pulse, wherein the time constant indicates an ability of the physical characteristic of the IR emitter to follow the electric pulse. 7. The apparatus according to claim 6 , wherein the calibration unit is configured to adjust the electric signal based on the comparison result to obtain a target value of the electric signal at the IR emitter to perform the in-situ calibration, wherein the calibration unit is configured to adjust the electric pulse such that at least one of an edge steepness, an amplitude, or a repetition frequency of the electric pulse is changed, and wherein a change of the electric pulse changes the physical characteristic of the IR emitter such that an absolute difference between the physical characteristic and a target value of the physical characteristic is reduced. 8. The apparatus according to claim 1 , wherein the electric signal comprises an electric pulse and wherein a physical characteristic of the IR emitter is different from a target value of the physical characteristic due to a degradation of the IR emitter and wherein the calibration unit is configured to adjust the electric signal such that the degradation of the IR emitter is compensated. 9. The apparatus according to claim 1 , wherein the electric signal is a voltage, an electrical current, or an electric power of the IR emitter. 10. An apparatus for in-situ calibration of a photoacoustic sensor, the apparatus comprising: a calibration unit configured to control a signal generator such that the signal generator feeds an infrared (IR) emitter with an electric pulse; and a sensor configured to measure a physical characteristic of a surface of the IR emitter, wherein the physical characteristic of the IR emitter depends on the electric pulse, wherein the calibration unit is configured to generate a calibration signal, comprising a calibration information indicative of a comparison result, based on comparing the physical characteristic of the surface of the IR emitter with a target value of the physical characteristic of the surface of the IR emitter to obtain the comparison result, and wherein, when performing the in-situ calibration, the calibration unit is configured to control the signal generator to adjust the electric pulse based on the calibration information, or the calibration unit is configured to process an output signal of the photoacoustic sensor based on the calibration information to obtain an adjusted output signal of the photoacoustic sensor. 11. The apparatus according to claim 10 , wherein the calibration unit is configured to adjust the electric pulse based on the comparison result to obtain a target value of the electric pulse at the IR emitter to perform the in-situ calibration. 12. The apparatus according to claim 10 , further comprising processing circuitry configured to process the output signal of the photoacoustic sensor based on the calibration information to obtain the adjusted output signal of the photoacoustic sensor. 13. The apparatus according to claim 10 , wherein the physical characteristic of the surface of the IR emitter is a surface temperature, and the sensor is configured to measure the surface temperature by measuring a temperature of an environment of the IR emitter or by measuring an infrared radiation of the IR emitter at the surface of the IR emitter. 14. The apparatus according to claim 10 , further comprising: the signal generator, wherein the signal generator is configured to generate the electric pulse and feed the IR emitter of the photoacoustic sensor with the electric pulse. 15. The apparatus according to claim 10 , wherein the calibration unit is configured to calculate a time constant of the photoacoustic sensor from the measured physical characteristic, wherein the time constant indicates an ability of the physical characteristic to follow the electric pulse. 16. The apparatus according to claim 10 , wherein the calibration unit is configured to adjust the electric pulse based on the comparison result to obtain a target value of the electric pulse at the IR emitter to perform the in-situ calibration, wherein the calibration unit is configured to adjust the electric pulse such that at least one of an edge steepness, an amplitude, or a repetition frequency of the electric pulse is changed, and wherein a change of the electric pulse changes the physical characteristic of the IR emitter such that an absolute difference between the physical characteristic and a target value of the physical characteristic is reduced. 17. The apparatus according to claim 10 , wherein the physical characteristic of the IR emitter is different from a target value of the physical characteristic due to a degradation of the IR emitter and wherein the calibration unit is configured to adjust the electric pulse such that the degradation of the IR emitter is compensated. 18. The apparatus according to claim 10 , wherein the physical characteristic of the surface of the IR emitter is an emissivity of radiation of the surface, and the sensor is configured to measure the emissivity of radiation by measuring an infrared radiation of the IR emitter at the surface of the IR emitter. 19. A microelectromechanical system, comprising: a photoacoustic sensor comprising an infrared (IR) emitter and a signal generator configured to feed the IR emitter with an electric pulse, a calibration unit configured to c