Peaking amplifier frequency tuning

What is claimed is: 1. A peaking amplifier circuit, comprising: an input node, an output node, and a feedback node; a first input amplifier having an input connected to the input node and an output connected to the feedback node; a second input amplifier having an input connected to the input node; a coupling capacitor connected between an output of the second input amplifier and the feedback node; an amplifier having an input connected to the feedback node and an output connected to the output node; a feedback circuit including: a base feedback amplifier having an input connected to the output node and an output connected to the feedback node; and a tunable feedback amplifier having an input connected to the output node and an output connected to the feedback node; and a tuning circuit for varying a transconductance of the feedback circuit to adjust an operational frequency of the peaking amplifier circuit. 2. The peaking amplifier circuit of claim 1 , wherein the feedback circuit further includes: a feedback coupling capacitor connected between the output of the tunable feedback amplifier and the feedback node; and a load impedance connected to the output of the tunable feedback amplifier. 3. The peaking amplifier circuit of claim 2 , wherein the base feedback amplifier, the tunable feedback amplifier, the feedback coupling capacitor, and the load impedance cooperate to reduce a variation in DC gain at different operational frequencies of the peaking amplifier circuit. 4. The peaking amplifier circuit of claim 1 , wherein the tuning circuit applies a tuning voltage to the tunable feedback amplifier, the tuning voltage varying a transconductance of the tunable feedback amplifier and adjusting the operational frequency of the peaking amplifier circuit. 5. The peaking amplifier circuit of claim 4 , wherein the tuning circuit applies the tuning voltage to a gate of a tail transistor in the tunable feedback amplifier. 6. The peaking amplifier circuit of claim 1 , wherein the tuning circuit selectively activates or deactivates the tunable feedback amplifier to vary the transconductance of the tunable feedback amplifier and adjust the operational frequency of the peaking amplifier circuit. 7. The peaking amplifier circuit of claim 6 , wherein the tuning circuit applies a tuning voltage to a gate of a tail transistor of the tunable feedback amplifier to selectively activate or deactivate the tunable feedback amplifier and adjust the operational frequency of the peaking amplifier circuit. 8. The peaking amplifier circuit of claim 1 , further comprising an integrated circuit including the peaking amplifier circuit. 9. A peaking amplifier circuit, comprising: an input node, an output node, and a feedback node; a first input amplifier having an input connected to the input node and an output connected to the feedback node; a second input amplifier having an input connected to the input node; a coupling capacitor connected between an output of the second input amplifier and the feedback node; an amplifier having an input connected to the feedback node and an output connected to the output node; a feedback circuit including: a base feedback amplifier having an input connected to the output node and an output connected to the feedback node; and a tunable feedback amplifier having an input connected to the output node and an output connected to the output of the second input amplifier; and a tuning circuit for varying a transconductance of the feedback circuit to adjust an operational frequency of the peaking amplifier circuit. 10. The peaking amplifier circuit of claim 9 , wherein the feedback circuit further includes a load impedance connected to the feedback node and a load impedance connected to the output of the second input amplifier. 11. The peaking amplifier circuit of claim 9 , wherein the base feedback amplifier, the tunable feedback amplifier, and the coupling capacitor cooperate to reduce a variation in DC gain at different operational frequencies of the peaking amplifier circuit. 12. The peaking amplifier circuit of claim 9 , wherein the tuning circuit applies a tuning voltage to the tunable feedback amplifier, the tuning voltage varying a transconductance of the tunable feedback amplifier and adjusting the operational frequency of the peaking amplifier circuit. 13. The peaking amplifier circuit of claim 12 , wherein the tuning circuit applies the tuning voltage to a gate of a tail transistor in the tunable feedback amplifier. 14. The peaking amplifier circuit of claim 9 , wherein the tuning circuit selectively activates or deactivates the tunable feedback amplifier to vary the transconductance of the tunable feedback amplifier and adjust the operational frequency of the peaking amplifier circuit. 15. The peaking amplifier circuit of claim 14 , wherein the tuning circuit applies a tuning voltage to a gate of a tail transistor of the tunable feedback amplifier to selectively activate or deactivate the tunable feedback amplifier and adjust the operational frequency of the peaking amplifier circuit. 16. The peaking amplifier circuit of claim 9 , further comprising an integrated circuit including the peaking amplifier circuit. 17. A method, comprising: adjusting a transconductance of a feedback circuit of a peaking amplifier; adjusting an operational frequency of the peaking amplifier in response to the adjustment of the transconductance of the feedback circuit; and reducing a variation in DC gain attenuation at different operational frequencies of the peaking amplifier, wherein the feedback circuit includes a feedback amplifier, and wherein adjusting the transconductance of the feedback circuit includes applying a tuning voltage to the feedback amplifier, the tuning voltage varying a transconductance of the feedback amplifier and causing an adjustment of the operational frequency of the peaking amplifier. 18. The method of claim 17 , wherein applying the tuning voltage includes applying the tuning voltage to a gate of a tail transistor in the feedback amplifier. 19. The method of claim 17 , wherein adjusting the transconductance of the feedback circuit further includes selectively activating or deactivating the feedback amplifier to vary the transconductance of the feedback.