Emitter follower buffer with reverse-bias protection

The invention claimed is: 1. A buffer circuit, said buffer circuit comprising: a first supply node configured to connect to a power supply; a second supply node; a first switch connected between said first supply node and said second supply node; a transconductance stage comprising an input terminal, an output terminal and a reference terminal, a resistive load connected between said output terminal of said transconductance stage and said second supply node; a first switchable current source connected between said reference terminal of said transconductance stage and ground; a bipolar transistor comprising a base, an emitter, and a collector, said collector of said bipolar transistor being connected to said second supply node, said base of said bipolar transistor connected to said output terminal of said transconductance stage; a second switchable current source connected between said emitter of said bipolar transistor and ground; a second switch connected between said base of said bipolar transistor and said emitter of said bipolar transistor, said buffer circuit being arranged to so as to be switched from a switch-off mode to a switch-on mode and back, whereby in said switch-on mode said first and second switchable current sources are switched on, and said first switch is switched on and said second switch switched off, and whereby in said switch-off mode said first and second switchable current sources are switched off, and said first switch is switched off and said second switch switched on, so as to connect said base and said emitter of said bipolar transistor. 2. A buffer circuit according to claim 1 , said buffer circuit comprising: a controller arranged to control said first and second switchable current sources and said first and second switches, so as to switch said buffer circuit from said switch-off mode to said switch-on mode and back. 3. A buffer circuit according to claim 1 , wherein said first switch comprises a MOS transistor. 4. A buffer circuit according to claim 1 , wherein said second switch comprises a MOS transistor. 5. A buffer circuit according to claim 1 , wherein said second switch comprises an N-channel depletion type MOSFET with its source connected to said base of said bipolar transistor. 6. A buffer circuit according to claim 1 , wherein said first and second switchable current sources each comprise a MOS transistor the gate of which is controlled by a switchable further MOS transistor. 7. A buffer circuit according to claim 1 , wherein said base of said bipolar transistor is directly connected to said output terminal of said transconductance stage. 8. A buffer circuit according to claim 1 , wherein said transconductance gate comprises an NPN bipolar transistor with a base as the input terminal, an emitter as the reference terminal, and a collector as the output terminal. 9. A buffer circuit according to claim 1 , wherein said transconductance gate comprises an NMOS transistor. 10. A buffer circuit according to claim 1 , said buffer circuit further comprising: a further transconductance stage comprising an input terminal, an output terminal and a reference terminal, a further resistive load connected between said output terminal of said further transconductance stage and said second supply node; a third switchable current source connected between said emitter of said third bipolar transistor and ground; a further bipolar transistor comprising a base, an emitter, and a collector, said collector of said further bipolar transistor connected to said second supply node, said base of said further bipolar transistor connected to said output terminal of said further transconductance stage; a fourth switchable current source connected between said emitter of further bipolar transistor and ground; a fourth switch connected between said base of said further bipolar transistor and said emitter of said further bipolar transistor. 11. A receiver device comprising at least two channels, each of said channels comprising a buffer circuit according to claim 1 , said buffer circuits being arranged so as to share the same output.