Amplifier circuit and methods of operation thereof

What is claimed is: 1. A charge pump circuit comprising: an input node for receiving an input voltage; first and second output nodes for connection to first and second reservoir capacitors and for outputting first and second output voltages respectively; a plurality of flying capacitor nodes; a network of switches for interconnecting said nodes; and a controller for operating said switches, said controller being operable in a first mode to operate said switches in a sequence of states so as to generate said first and second output voltages wherein, in said first mode, said first and second output voltages are of opposite polarity to one another and each substantially equal in magnitude to a fraction of said input voltage; wherein said sequence of states includes a first state of the first mode in which a flying capacitor connected to the flying capacitor nodes is connected in series with the first reservoir capacitor, wherein the circuit further comprises an input selector for receiving, in use, a plurality of different voltage inputs and operable to select one of said plurality of different voltage inputs as said input voltage received at the input node. 2. A charge pump circuit as claimed in claim 1 , wherein, in said first mode, said sequence of states further comprises a second state of the first mode in which a flying a flying capacitor connected to the flying capacitor nodes is connected in parallel with the second reservoir capacitor. 3. A charge pump circuit as claimed in claim 1 , wherein said fraction of the magnitude of the input voltage is 1/(n+1) where n is an integer representing the number of flying capacitors. 4. A charge pump circuit as claimed in claim 3 , where said plurality of flying capacitor nodes comprises a plurality of pairs of flying capacitor terminals for connection to a plurality of flying capacitors. 5. A charge pump circuit as claimed in claim 1 , wherein the controller is further operable in a second mode, wherein in the second mode the first and second output voltages are of opposite polarity to one another and each equal in magnitude to the magnitude of the input voltage. 6. A charge pump circuit as claimed in claim 1 , wherein the controller is operable in the second mode to operate, in use, the switches in a sequence of states comprising a first state of the second mode state to charge a flying capacitor conn and first reservoir capacitor to substantially said input voltage and a second state of the second mode to transfer the voltage from a charged flying capacitor to the second reservoir capacitor. 7. A charge pump circuit as claimed in claim 1 , wherein the input selector comprises a control input for controlling the selection of the input voltage from the plurality of different voltage inputs. 8. An apparatus comprising a charge pump circuit as claimed in claim 1 , and a first amplifier circuit, wherein the first amplifier circuit is configured to be powered by the first and second output voltages. 9. An apparatus as claimed in claim 8 , wherein at least one of: a mode of operation of the charge pump circuit; and the voltage input selected by the input selector; is controlled, in use, so as to vary the first and second output voltages. 10. An apparatus as claimed in claim 9 , wherein the apparatus is an audio apparatus and the controller is configured to determine, in use, whether the apparatus is operably connected to a headphone load or a line-out load. 11. An apparatus as claimed in claim 8 , further comprising a first level-shifter, the first amplifier circuit being arranged to amplify a signal output from the first level-shifter, wherein the first level-shifter is configured to level shift a signal from being referenced midway between a first supply voltage and ground to being referenced about ground. 12. An apparatus as claimed in claim 11 , wherein the first supply voltage is one of said plurality of said different voltage inputs for the input selector. 13. An apparatus as claimed in claim 11 , further comprising a first signal processing circuit, wherein the first level-shifter signal is configured to receive an output from the first signal processing circuit. 14. An apparatus as claimed in claim 13 , wherein the signal input to the first signal processing circuit is referenced midway between the first supply voltage and ground. 15. An apparatus as claimed in claim 13 , wherein the first signal processing circuit is configured to be powered by the first supply voltage. 16. An apparatus as claimed in claim 9 , further comprising a second amplifier circuit, wherein the first and second amplifier circuits are configured to amplify, in use, signals corresponding to different audio channels wherein the second amplifier circuit is arranged to be powered by the output voltages, generated, in use, at the first and second output terminals of the charge pump circuit. 17. An apparatus as claimed in claim 6 , wherein the apparatus is at least one of: an audio apparatus; a mobile telephone; an MP3 player; a multimedia player and a laptop computer. 18. A charge pump circuit comprising: an input node for receiving an input voltage; first and second output nodes for connection to first and second reservoir capacitors; a plurality of flying capacitor nodes; a network of switches for interconnecting said nodes; and a controller for operating said switches, said controller being operable in a first mode to operate said switches in a sequence of states so as to generate, in use, first and second output voltages at said first and second output nodes respectively wherein said first and second output voltages are of opposite polarity to one another and each substantially equal in magnitude to a fraction of said input voltage; wherein the circuit further comprises an input selector for receiving, in use, a plurality of different voltage inputs and operable to select one of said plurality of different voltage inputs as said input voltage received at the input node.