Microphone and method of testing a microphone

I claim: 1. A microphone, comprising: a housing, an inner volume of the housing being filled with a gas; an opening of the housing; an acoustic sensor in the housing; a diaphragm of the acoustic sensor above the opening, the diaphragm being a deflectable membrane and separating the inner volume from the opening; and a heater in the inner volume, the heater being configured to cause the diaphragm to deflect towards the opening by increasing the pressure of the gas by heating, such that an electric output signal of the deflectable membrane is generated. 2. The microphone of claim 1 , further comprising: an integrated circuit chip in the housing; and an electric connection between the integrated circuit chip and the acoustic sensor. 3. The microphone of claim 1 , wherein the heater is integrated in the acoustic sensor. 4. The microphone of claim 2 , wherein the heater is integrated in the integrated circuit chip. 5. The microphone of claim 1 , further comprising: a heater chip in the housing, the heater being integrated in the heater chip. 6. The microphone of claim 1 , further comprising: a pressure sensor in the inner volume of the housing. 7. The microphone of claim 1 , wherein the diaphragm is a transparent or semitransparent plate. 8. The microphone of claim 1 , wherein the acoustic sensor is a microelectromechanical system. 9. A method of testing a microphone having a housing with an opening, an inner volume of the housing being filled with a gas having a pressure, and an acoustic sensor with a diaphragm separating the inner volume from the opening, the diaphragm being a deflectable membrane, the method comprising: heating the gas from inside the inner volume, thus increasing the pressure of the gas, wherein increasing the pressure of the gas causes the diaphragm to deflect towards the opening; detecting an output signal generated by the increase of the pressure, wherein the output signal is measured as an electric output signal of the deflectable membrane; and evaluating the output signal generated by the increase of the pressure for a self-calibration or/and self-diagnostics of the microphone. 10. The method according to claim 9 , further comprising: releasably attaching a barrier to the opening; and sealing a cavity with the barrier, the cavity being confined by the barrier and the membrane, so that the deflection of the membrane increases a further pressure in the cavity. 11. The method according to claim 10 , further comprising: removing the barrier after testing the microphone. 12. The method according to claim 9 , further comprising: measuring the pressure in the inner volume when the gas is heated. 13. The method according to claim 9 , further comprising: evaluating the output signal generated by the increase of the pressure for a self-calibration or/and self-diagnostics of the microphone.