Device for wirelessly transferring power toward a consumer by way of inductive coupling

The invention claimed is: 1. A device ( 100 ) for wirelessly transferring power toward a consumer ( 200 ) by way of inductive coupling and/or for heating an item of cookware ( 200 ) by way of inducing eddy currents, wherein the device ( 100 ) comprises: a rectifier ( 101 ) for generating a DC voltage (UG) from a line voltage (UN), an inverter ( 102 ) which is configured to generate a pulse-width-modulated drive signal (AS), and a power coil ( 103 ) driven by way of the pulse-width-modulated drive signal (AS), which power coil is configured to generate an alternating magnetic field for power transfer and for measurement purposes, wherein: the inverter comprises: a first semiconductor switching means ( 104 ), a second semiconductor switching means ( 105 ), and a third semiconductor switching means ( 106 ), in a first operating mode (B 1 ), the inverter ( 102 ) is configured to generate the pulse-width-modulated drive signal (AS) for power transfer as a function of the DC voltage (UG), in a second operating mode (B 2 ), the inverter is configured to generate the pulse-width-modulated drive signal (AS) for measurement purposes depending on a measurement voltage (UM), wherein the DC voltage (UG) is higher than the measurement voltage (UM) during the second operating mode, the first semiconductor switching means ( 104 ) and the second semiconductor switching means ( 105 ) are looped in in series between a first circuit node ( 107 ) and a second circuit node ( 108 ), wherein the DC voltage (UG) is present between the first circuit node ( 107 ) and the second circuit node ( 108 ) and wherein a connecting node ( 109 ) of the first semiconductor switching means ( 104 ) and of the second semiconductor switching means ( 105 ) is electrically connected to the power coil ( 103 ), and the third semiconductor switching means ( 106 ) and the first semiconductor switching means ( 104 ) are looped in in series between the third circuit node ( 110 ) and the second circuit node ( 108 ), wherein the measurement voltage (UM) is present between the third circuit node ( 110 ) and the second circuit node ( 108 ). 2. The device ( 100 ) of claim 1 , wherein the inverter ( 102 ) further comprises a decoupling diode ( 111 ), wherein the third semiconductor switching means ( 106 ), the decoupling diode ( 111 ) and the first semiconductor switching means ( 104 ) are looped in in series between the third circuit node ( 110 ) and the second circuit node ( 108 ). 3. The device ( 100 ) of claim 1 , wherein the inverter ( 102 ) further comprises a fourth semiconductor switching means ( 112 ), wherein the third semiconductor switching means ( 106 ), the fourth semiconductor switching means ( 112 ) and the first semiconductor switching means ( 104 ) are looped in in series between the third circuit node ( 110 ) and the second circuit node ( 108 ). 4. The device ( 100 ) of claim 1 , wherein during the first operating mode for generating the pulse-width-modulated drive signal (AS), a switching state of the first semiconductor switching means ( 104 ) and of the second semiconductor switching means ( 105 ) is continuously modified. 5. The device ( 100 ) of claim 4 , wherein, during the first operating mode, a switching state of the third semiconductor switching means ( 106 ) remains unmodified. 6. The device ( 100 ) of claim 1 , wherein, during the second operating mode for generating the pulse-width-modulated drive signal (AS), a switching state of the first semiconductor switching means ( 104 ) and of the third semiconductor switching means ( 106 ) is continuously modified and a switching state of the second semiconductor switching means ( 105 ) remains unmodified. 7. The device ( 100 ) of claim 1 , wherein the measurement purposes comprise determining characteristics of objects in the active region of the generated magnetic field of the power coil ( 103 ). 8. The device ( 100 ) of claim 7 , wherein the objects are items of cookware ( 200 ). 9. The device ( 100 ) of claim 1 , wherein the measurement purposes comprise determining a transfer function, wherein the transfer function characterizes an electrical power over frequency transferable by way of the device ( 100 ) toward electrical consumer ( 200 ). 10. The device ( 100 ) of claim 1 , wherein the measurement purposes comprise determining a characteristic frequency, wherein a specified phase angle between a voltage present at the power coil ( 103 ) and a current flowing through the power coil ( 103 ) prevails at the characteristic frequency. 11. The device ( 100 ) of claim 1 , wherein currents and/or voltages and/or a phase angle between the currents and voltages are evaluated for the measurement purposes. 12. The device ( 100 ) of claim 1 , wherein, in the second operating mode, sensors in the active region of the alternating magnetic field are supplied with operating power.