Switched-capacitor power amplifiers

What is claimed is: 1. A switched-capacitor power amplifier cell comprising: a first capacitor and a second capacitor; a first input signal line connected to the first capacitor and a second input signal line connected to the second capacitor; a first switch and a second switch both connected to the first input signal line, the first switch being configured for supplying a first supply voltage to the first input signal line and the second switch being configured for supplying a second supply voltage to the first input signal line; a third switch and a fourth switch both connected to the second input signal line, the third switch being configured for supplying the first supply voltage to the second input signal line and the fourth switch being configured for supplying the second supply voltage to the second input signal line; and a switched signal line connecting the first input signal line and the second input signal line, the switched signal line comprising a fifth switch, wherein in a first mode of the switched-capacitor power amplifier cell, the first switch and the second switch are configured to switch at a common frequency and out of phase with one another, the third switch and the fourth switch are configured to switch at the common frequency and out of phase with one another, the first switch and the fourth switch are configured to switch in phase with one another, the second switch and the third switch are configured to switch in phase with one another, and the fifth switch is in an open condition, and in a second mode the first switch and the fourth switch are configured to switch in phase with one another, the second switch and the third switch are in an open condition, and the fifth switch is configured to switch out of phase with the first switch and the fourth switch. 2. The switched-capacitor power amplifier cell according to claim 1 , wherein the fifth switch comprises a first switch element and a second switch element, the first switch element and the second switch element being configured to be switched in phase with one another. 3. The switched-capacitor power amplifier cell according to claim 1 , wherein the first switch comprises a first switch element and a second switch element and the second switch comprises a third switch element and a fourth switch element, the second switch element and the third switch element being connected to one another and to a third supply voltage, the third supply voltage being less than the first supply voltage but greater than the second supply voltage. 4. The switched-capacitor power amplifier cell according to claim 3 , wherein the third switch comprises a fifth switch element and a sixth switch element and the fourth switch comprises a seventh switch element and an eighth switch element, the sixth switch element and the seventh switch element being connected to one another and to the third supply voltage. 5. The switched-capacitor power amplifier cell according to claim 4 , wherein the fifth switch comprises: a ninth switch element connected to the first input signal line; a tenth switch element connected to the ninth switch element and connected to a central node that is held at the third supply voltage; an eleventh switch element connected to the central node; and a twelfth switch element connected to the eleventh switch element and the second input signal line. 6. The switched-capacitor power amplifier cell according to claim 1 , wherein the second supply voltage is equal to ground. 7. A switched-capacitor power amplifier comprising a plurality of switched-capacitor power amplifier cells according to claim 1 , wherein the switched-capacitor power amplifier is configured such that a differential output signal from each cell of the plurality of switched-capacitor power amplifier cells is connected together to form a combined output. 8. A method of operating a switched-capacitor power amplifier cell, the method comprising: switching a first switch and a second switch at a common frequency and in phase with each other, the first switch being configured for supplying a first supply voltage to a first input signal line and the second switch being configured for supplying a second supply voltage to a second input signal line, the first input signal line comprising a first capacitor and the second input signal line comprising a second capacitor; and switching a third switch at the common frequency out of phase with the first switch and the second switch, the third switch being configured to connect the first input signal line to the second input signal line.