Method for measuring capacitance and capacitive sensor unit

The invention claimed is: 1. A method for measuring a capacitance, which comprises the steps of: during a first measuring phase, detecting a first measured quantity of the capacitance via a first measuring method, the first measuring method includes performing one of the further steps for detecting the first measured quantity: detecting a measurement of a charging speed of a sensor electrode; detecting an amplitude of an alternating voltage present on a voltage divider containing a sensor electrode; or detecting a phase angle between the alternating voltage and a strength of a flow of current caused by the alternating voltage; starting a second measuring phase when the first measured quantity satisfies a transition criterion; and during the second measuring phase, detecting a second measured quantity of the capacitance to be measured via a second measuring method being different from the first measuring method, the second measuring method having a higher level of measuring accuracy compared to the first measuring method, and the first measuring method having a lower expenditure of energy compared to the second measuring method, the second measuring method includes performing one of the further steps of: detecting a measurement of a charge quantity on the sensor electrode as the second measured quantity; or detecting a frequency of a voltage which is generated by an RC oscillator containing the sensor electrode. 2. The method according to claim 1 , which further comprises: defining the transition criterion to contain a threshold value comparison of the first measured quantity with a given threshold value; and detecting an electrical voltage dropping across the sensor electrode or a charging resistor connected upstream as the first measured quantity and the transition criterion is met when the first measured quantity does not reach the given threshold value in a predefined time frame. 3. The method according to claim 1 , which further comprises: detecting, during the second measuring phase, a capacitor voltage present at a reference capacitor owing to a transfer of charge from the sensor electrode to the reference capacitor; increasing a charge quantity at the reference capacitor incrementally until the capacitor voltage reaches a predefined limiting value; and detecting a number of charge increasing increments as the second measured quantity. 4. The method according to claim 1 , which further comprises: during the second measuring phase, transferring charge incrementally from the sensor electrode to a reference capacitor and is accumulated at the reference capacitor; and detecting, after a number of charge increasing increments, a capacitor voltage present at the reference capacitor, and the capacitor voltage is detected as the second measured quantity. 5. The method according to claim 1 , wherein in order to determine a basic measurement of capacitance, alternating switching occurs between the first measuring phase and the second measuring phase in a timing pattern. 6. A detection method, which comprises the steps of: detecting a door opening request of a motor vehicle user in a motor vehicle via a capacitive sensor unit which measures a capacitance, by the further steps of: during a first measuring phase, detecting a first measured quantity of the capacitance to be measured via a first measuring method, the first measuring method includes performing one of the further steps for detecting the first measured quantity: detecting a measurement of a charging speed of a sensor electrode; detecting an amplitude of an alternating voltage present on a voltage divider containing a sensor electrode; or detecting a phase angle between the alternating voltage and a strength of a flow of current caused by the alternating voltage; starting a second measuring phase when the first measured quantity satisfies a transition criterion; and during the second measuring phase, detecting a second measured quantity of the capacitance to be measured via a second measuring method which is different from the first measuring method, the second measuring method having a higher level of measuring accuracy compared to the first measuring method, and the first measuring method having a lower expenditure of energy compared to the second measuring method, the second measuring method includes performing one of the further steps of: detecting a measurement of a charge quantity on the sensor electrode as the second measured quantity; or detecting a frequency of a voltage which is generated by an RC oscillator containing the sensor electrode. 7. A capacitive sensor unit, comprising: a sensor electrode; an evaluation unit; a charging resistor; and a reference capacitor, said sensor electrode, said evaluation unit, said charging resistor and said reference capacitor coupled or can be coupled to each other via signaling technology; said evaluation unit configured and programmed to measure a capacitance by the steps of: during a first measuring phase, detecting a first measured quantity of the capacitance to be measured via a first measuring method, the first measuring method includes performing one of the further steps for detecting the first measured quantity: detecting a measurement of a charging speed of said sensor electrode as the first measured quantity; detecting an amplitude of an alternating voltage present on a voltage divider containing a sensor electrode; or detecting a phase angle between the alternating voltage and a strength of a flow of current caused by the alternating voltage; starting a second measuring phase when the first measured quantity satisfies a transition criterion; and during the second measuring phase, detecting a second measured quantity of the capacitance to be measured via a second measuring method which is different from the first measuring method, the second measuring method having a higher level of measuring accuracy compared to the first measuring method, and the first measuring method having a lower expenditure of energy compared to the second measuring method, the second measuring method includes performing one of the further steps of: detecting a measurement of a charge quantity on the sensor electrode as the second measured quantity; or detecting a frequency of a voltage which is generated by an RC oscillator containing the sensor electrode.