Charge pump circuit

What is claimed is: 1. A charge pump circuit operable to output a bipolar output voltage, comprising: at least one input node for connection to an input voltage; a first output node and a second output node configured to output the bipolar output voltage; flying capacitor nodes for connection to a plurality of flying capacitors; a network of switching paths for interconnecting said nodes; and a switch controller operable to control the network of switching paths, when in use with two flying capacitors connected to the flying capacitor nodes and with first and second reservoir capacitors connected to the first and second output nodes respectively, to repeatedly charge the first and second reservoir capacitors to provide the bipolar output voltage, wherein the switch controller is operable in three different operating modes, said operating modes comprising: a first mode where the bipolar output voltage is +/−VV; a second mode where the bipolar output voltage is +/−VV/2; and a third mode where the bipolar output voltage is +/−VV/3; wherein VV is the input voltage. 2. The charge pump circuit of claim 1 further comprising a charge pump controller for controlling the charge pump to operate in a selected one of said first, second or third modes based on at least one control input. 3. The charge pump circuit of claim 2 wherein said at least one control input comprises an indication of load demand of a load supplied with the bipolar output voltage and the charge pump controller is configured to controllably vary the selected mode of operation in response to changes in the indication of load demand. 4. The charge pump circuit of claim 2 wherein the first output node and the second output node are configured to output the bipolar output voltage as a supply voltage for at least one component of an audio output chain. 5. The charge pump circuit of claim 4 wherein said at least one component of an audio output chain comprises an amplifier. 6. The charge pump circuit of claim 4 wherein said at least one control input comprises a gain or volume setting applied to the audio output chain and the charge pump controller is configured to controllably vary the selected mode of operation in response to changes in the gain or volume setting. 7. The charge pump circuit of claim 4 wherein said at least one control input comprises an indication of output signal level of the audio output chain and the charge pump controller is configured to controllably vary the selected mode of operation in response to changes in the indication of output signal level. 8. The charge pump circuit of claim 4 wherein the audio output circuit comprises a headphone driver circuit. 9. The charge pump circuit of claim 1 wherein a frequency of charging the first and second reservoir capacitors is controllably variable. 10. The charge pump circuit of claim 1 wherein the switch network comprises at least a first switch formed on a first region of semiconductor substrate where the first region is isolated from the rest of the substrate by one or more n-well regions. 11. An electronic device comprising the charge pump circuit of claim 1 . 12. A charge pump circuit comprising: an input node for receiving an input voltage with respect to a reference voltage; first and second output nodes for outputting first and second output voltages of equal and opposite magnitude with respect to the reference voltage; flying capacitor nodes for connecting to at least first and second flying capacitors; a network of switching paths for interconnecting said nodes; and a switch controller operable to control the network of switching paths, when in use with said first and second flying capacitors connected to the flying capacitor nodes, to generate the first and second output voltages, wherein the switch controller is operable so that the first and second output voltages can be selectively controlled to have a magnitude equal to any of: the same magnitude as the input voltage; half the magnitude of the input voltage; a third of the magnitude of the input voltage; wherein the switch network comprises at least a first switch formed on a first region of semiconductor substrate where the first region is isolated from the rest of the substrate by one or more n-well regions. 13. The charge pump circuit of claim 12 wherein the switch controller controls the charge pump to selectively control the magnitude of the first and second output voltages based on at least one control input. 14. The charge pump circuit of claim 13 wherein the first output node and the second output node are configured to output the first and second output voltages as supply voltages for an audio amplifier of an audio output chain and the at least one control input comprises an indication of a gain or volume setting for the audio output chain. 15. The charge pump circuit of claim 13 wherein the first output node and the second output node are configured to output the first and second output voltages as supply voltages for an audio amplifier of an audio output chain and the at least one control input comprises an indication of an output signal level from the audio amplifier. 16. A charge pump circuit for receiving an input voltage and outputting a bipolar output voltage, the charge pump circuit comprising: flying capacitor nodes for connection to two flying capacitors; a switch network comprising a plurality of switches; a switch controller for selectively controlling said switches in a sequence of switch states to generate the bipolar output voltage; wherein the charge pump circuit is selectively operable in three different modes in which the bipolar output voltage is respectively +/−VV, +/−VV/2 and +/−VV/3, where +/−VV is the input voltage. 17. The charge pump circuit of claim 16 wherein the bipolar output voltage is supplied to an audio amplifier of an audio output chain and the charge pump is operable to operable to selectively vary between the three modes of operation based on at least one of a volume or gain setting for the audio output chain and an indication of an output signal level of the audio amplifier.