Method and means for regulating the electrical bias voltage at the measuring capacitor of a MEMS sensor element

What is claimed is: 1. A method for regulating an electrical bias voltage at a measuring capacitor of a MEMS sensor element having a first electrode side and a second electrode side, the second electrode side being connected to an inverting input of an operational amplifier, an output of the operational amplifier being connected to an input of a regulator, and an output of the regulator being fed back to a non-inverting input of the operational amplifier, the method comprising: applying a base voltage to the first electrode side of the measuring capacitor, and subsequently regulating the base voltage in such a way that a potential difference between both electrode sides of the measuring capacitor corresponds to a setpoint voltage, the regulation of the base voltage taking place in a low-voltage range; applying a predefined and non-variable base potential in the order of the setpoint voltage to the first electrode side of the measuring capacitor; and applying a regulatable counter-potential which is low in comparison to the base voltage to the second electrode side of the measuring capacitor, the counter-potential being regulated in such a way that the potential difference at the measuring capacitor corresponds to the setpoint voltage, wherein the regulatable counter-potential is regulated on the second electrode side of the measuring capacitor via the output of the regulator that is supplied to the non-inverting input of the operational amplifier. 2. An arrangement for regulating an electrical bias voltage at a measuring capacitor of a MEMS sensor element, comprising: a first voltage source which delivers a voltage in the order of a setpoint voltage and is connected to a first electrode side of the measuring capacitor as a predefined base potential; a counter-potential which is low in comparison to the base potential and which is applied to the second electrode side of the measuring capacitor; an operational amplifier, an inverting input of the operational amplifier being connected to the second electrode side of the measuring capacitor and an output of the operational amplifier is fed back to the inverting input via a defined capacitance; a regulator connected downstream from the output of operational amplifier, the regulator having an output fed back to a non-inverting input of operational amplifier, so that a counter-potential present at the inverting input of the operational amplifier is regulated on the second electrode side of the measuring capacitor via an output signal of the regulator. 3. The regulating arrangement as recited in claim 2 , wherein the regulator is an analog PI controller having a processing logic connected upstream and the PI controller includes at least one operational amplifier, which is fed back via a defined capacitance and a resistor, and a resistor being connected upstream from its inverting input. 4. A method of using of regulating arrangement, comprising: providing a regulating arrangement, the regulating arrangement including a first voltage source which delivers a voltage in the order of a setpoint voltage and is connected to a first electrode side of the measuring capacitor as a predefined base potential, a counter-potential which is low in comparison to the base potential and which is applied to the second electrode side of the measuring capacitor, an operational amplifier, an inverting input of the operational amplifier being connected to the second electrode side of the measuring capacitor and an output of the operational amplifier is fed back to the inverting input via a defined capacitance, and a regulator connected downstream from the output of operational amplifier, the regulator having an output fed back to a non-inverting input of operational amplifier, so that a counter-potential present at the inverting input of the operational amplifier is regulated on the second electrode side of the measuring capacitor via an output signal of the regulator; and one of: setting a pull-in voltage at the microphone capacitor of a microphone element as an electrical bias voltage using the regulating arrangement, or setting a pull-in voltage at the measuring capacitor of an acceleration sensor element as an electrical bias voltage using the regulating arrangement.