Circuit assembly and method for controlling a piezoelectric transformer

The invention claimed is: 1. A circuit assembly comprising: a first circuit branch including a piezoelectric transformer that has an input capacitance; a second circuit branch that compensates for the input capacitance; and a differential amplifier having a first input coupled to the first circuit branch and a second input coupled to the second circuit branch, wherein the second circuit branch includes a series connection of a capacitive element and a second resistor, and wherein a time constant of the series connection of the capacitive element and the second resistor in the second circuit branch is substantially equal to a time constant of the series connection of the input capacitance and a first resistor in the first circuit branch. 2. The circuit assembly according to claim 1 , wherein the first resistor is coupled in series with the piezoelectric transformer. 3. The circuit assembly according to claim 1 , wherein the piezoelectric transformer is between a first and a second potential point in the first circuit branch, wherein the first resistor is between the second and a third potential point in the first circuit branch, wherein the capacitive element is between a first and a second potential point in the second circuit branch, wherein the second resistor is between the second and a third potential point in the second circuit branch, and wherein the second potential point in the first circuit branch is coupled to the first input, and the second potential point in the second circuit branch is coupled to the second input. 4. The circuit assembly according to claim 3 , wherein an output of the differential amplifier is coupled to the piezoelectric transformer via a feedback branch, and wherein a fed-back signal is present at the first potential point of the first circuit branch and the first potential point of the second circuit branch. 5. The circuit assembly according to claim 1 , wherein, in an equivalent circuit diagram of the piezoelectric transformer including a series resonant circuit comprising a capacitive element, an inductive element, and a resistor, the input capacitance corresponds to a capacitive element that is connected in parallel with the series resonant circuit. 6. The circuit assembly according to claim 1 , wherein an output of the differential amplifier is coupled to the piezoelectric transformer via a feedback branch. 7. The circuit assembly according to claim 6 , further comprising an additional amplifier in the feedback branch. 8. The circuit assembly according to claim 6 , further comprising an amplitude controller in the feedback branch. 9. The circuit assembly according to claim 6 , wherein the output of the differential amplifier is coupled to the piezoelectric transformer via a pulse width modulator and two switch elements connected in series between two potential points. 10. The circuit assembly according to claim 6 , wherein the circuit assembly includes a voltage control loop in which a signal that is present at the output of the differential amplifier is fed back, and a current control loop in which a signal that is proportional to current flowing through the piezoelectric transformer is fed back. 11. A method for controlling a piezoelectric transformer that has an input capacitance in a first circuit branch, the method comprising: detecting a voltage difference between the first circuit branch and a second circuit branch that compensates for the input capacitance; and feeding the voltage difference back to the piezoelectric transformer in a feedback loop, wherein the first circuit branch includes a series connection of the piezoelectric transformer and a first resistor, between which a first potential is tapped, wherein the second circuit branch includes a series connection of a capacitive element and a second resistor, between which a second potential is tapped, wherein the voltage difference is a difference between the first potential and the second potential, and wherein a time constant of the series connection of the capacitive element and the second resistor in the second circuit branch is substantially equal to a time constant of the series connection of an input capacitance and a first resistor in the first circuit branch. 12. A circuit assembly comprising: a first circuit branch including a series connection of a piezoelectric transformer, which has an input capacitance, and a first resistor, the piezoelectric transformer being located between a first and a second potential point in the first circuit branch and the first resistor being located between the second and a third potential point in the first circuit branch; a second circuit branch which compensates for the input capacitance, the second circuit branch including a series connection of a capacitive element and a second resistor, the capacitive element being located between a first and a second potential point in the second circuit branch and the second resistor being located between the second and a third potential point in the second circuit branch, wherein a time constant of the series connection of the capacitive element and the second resistor in the second circuit branch is substantially equal to a time constant of the series connection of the input capacitance and the first resistor in the first circuit branch; and a differential amplifier having a first input coupled to the second potential point in the first circuit branch and a second input coupled to the second potential point in the second circuit branch, wherein an output of the differential amplifier is coupled to the piezoelectric transformer via a feedback branch, and wherein the output of the differential amplifier is coupled to the piezoelectric transformer via a pulse width modulator and two switch elements connected in series between two potential points. 13. The circuit assembly according to claim 12 , wherein a fed-back signal is present at the first potential point of the first and the first potential point of the second circuit branch. 14. The circuit assembly according to claim 12 , further comprising an additional amplifier in the feedback branch. 15. The circuit assembly according to claim 12 , further comprising an amplitude controller in the feedback branch. 16. A circuit assembly comprising: a first circuit branch including a piezoelectric transformer that has an input capacitance; a second circuit branch that compensates for the input capacitance; and a differential amplifier having a first input coupled to the first circuit branch and a second input coupled to the second circuit branch, wherein an output of the differential amplifier is coupled to the piezoelectric transformer via a feedback branch, and wherein the output of the differential amplifier is coupled to the piezoelectric transformer via a pulse width modulator and two switch elements connected in series between two potential points.