Bidirectional amplifier

I claim: 1. A bidirectional amplifier, comprising, first and second ports; a first summing node connected to said first port; a second summing node connected to said second port; a first gain stage connected between said first summing node and a first node; a second gain stage connected between said second summing node and said first node; a first feedback stage connected between said first node and said first summing node; a second feedback stage connected between said first node and said second summing node; said bidirectional amplifier arranged such that, in a first mode: said first port is an input port and said second port is an output port; said first summing node produces an output which varies with the difference between a signal applied to said first port and the output of said first feedback stage; said first gain stage provides an output which varies with said first summing node output; said second feedback stage receives the output of said first gain stage; and said second summing node receives the output of said second feedback stage and produces an output at said second port which varies with said second feedback stage output; and in a second mode: said second port is an input port and said first port is an output port; said second summing node produces an output which varies with the difference between a signal applied to said second port and the output of said second feedback stage; said second gain stage provides an output which varies with said second summing node output; said first feedback stage receives the output of said second gain stage; and said first summing node receives the output of said first feedback stage and produces an output at said first port which varies with said first feedback stage output. 2. The bidirectional amplifier of claim 1 , wherein said first gain stage comprises a first common emitter cascode arrangement and said second gain stage comprises a second common emitter cascode arrangement, and said first feedback stage comprises a first emitter follower and said second feedback stage comprises a second emitter follower, said bidirectional amplifier arranged such that, in said first mode: said first gain stage is enabled; and said first feedback stage provides feedback from the output of said first gain stage to said first summing node and said second feedback stage operates as an emitter follower stage; and in said second mode: said second gain stage is enabled; and said second feedback stage provides feedback from the output of said second gain stage to said second summing node and said first feedback stage operates as an emitter follower stage. 3. The bidirectional amplifier of claim 2 , wherein in said first mode, said second gain stage is disabled or adjusted in-situ or during steady-state operation to meet system requirements, and in said second mode, said first stage is disabled or adjusted in-situ or during steady-state operation to meet system requirements. 4. The bidirectional amplifier of claim 3 , wherein adjusting said first or second gain stage comprises varying its magnitude and/or phase. 5. The bidirectional amplifier of claim 1 , wherein said first and second gain stages have associated gain transfer functions A 1 ( s ) and A 2 ( s ), respectively, and said first and second feedback stages have associated feedback transfer functions f 1 , 2 ( s ) and f 2 , 1 ( s ), respectively, wherein A 1 ( s ) and A 2 ( s ) can be identical or different, and f 1 , 2 ( s ) and f 2 , 1 ( s ) can be symmetric or asymmetric. 6. The bidirectional amplifier of claim 1 , wherein said amplifier is single-ended or differential. 7. A bidirectional amplifier, comprising, first and second ports; a first circuit connected between said first port and a first node; a second circuit connected between said second port and said first node, the components of said first circuit being substantially identical to the components of said second circuit, said bidirectional amplifier having a symmetrical architecture around said first node; said first and second circuits arranged to: in a first mode, amplify a signal applied at said first port and provide said amplified signal at said second port; and to: in a second mode, amplify a signal applied at said second port and provide said amplified signal at said first port; said bidirectional amplifier having associated system gain, input impedance, and output impedance characteristics, and circuitry arranged such that said system gain, input impedance, and output impedance characteristics can be designed independently of each other. 8. The bidirectional amplifier of claim 7 , wherein said first and second circuits comprise: first and second nodes coupled to said first and second ports, respectively; first and second transistors connected in a first common emitter cascode arrangement between said first node and a third node; third and fourth transistors connected in a second common emitter cascode arrangement between said second node and said third node; a fifth transistor connected between said third node and said first node; and a sixth transistor connected between said third node and said second node; said bidirectional amplifier arranged such that: in said first mode, said first common emitter cascode arrangement is enabled, said sixth transistor operates as an emitter follower and forms a gain stage with said first common emitter cascode arrangement and said fifth transistor operates as a feedback emitter follower, such that said bidirectional amplifier amplifies a signal applied to said first port and provides said amplified signal at said second port; and such that: in said second mode, said second common emitter cascode arrangement is enabled, said fifth transistor operates as an emitter follower and forms a gain stage with said second common emitter cascode arrangement and said sixth transistor operates as a feedback emitter follower, such that said bidirectional amplifier amplifies a signal applied to said second port and provides said amplified signal at said first port. 9. The bidirectional amplifier of claim 8 , wherein in said first mode, said second common emitter cascode arrangement is disabled or adjusted in-situ or during steady-state operation to meet system requirements, and in said second mode, said first common emitter cascode arrangement is disabled or adjusted in-situ or during steady-state operation to meet system requirements. 10. The bidirectional amplifier of claim 9 , wherein adjusting said first or second common emitter cascode arrangement comprises varying its magnitude and/or phase. 11. The bidirectional amplifier of claim 8 , further comprising first and second bias points coupled to said first and second common emitter cascode arrangements, respectively, said first and second bias points arranged to enable, disable, or adjust said first and second common emitter cascode arrangements according to system requirements. 12. The bidirectional amplifier of claim 8 , further comprising a load resistor connected between said third node and a supply voltage. 13. The bidirectional amplifier of claim 8 , further comprising; a first resistor connected between said fifth transistor and said first node; and a second resistor connected between said sixth transistor and said second node. 14. The bidirectional amplifier of claim 8 , further comprising: a first current source which conducts a current Ibias 1 connected between said first node and a circuit common point; and a second current source which conducts a current Ibias 2 connected between said second node and said circuit common point