Signal compensation with summed error signals

What is claimed is: 1. A compensated amplifier for use in a power converter controller, comprising: a first amplifier coupled to receive a sensed signal and a reference signal and configured to generate a first error signal in response to the sensed signal and the reference signal; a second amplifier coupled to the first amplifier and configured to generate a second error signal in response to the sensed signal and the reference signal; an integrator coupled to the first amplifier and configured to generate an integrated error signal in response to the first error signal; and an arithmetic operator coupled to the second amplifier, wherein the arithmetic operator is configured to generate a control signal in response to the integrated error signal and the second error signal, wherein the first amplifier comprises a first transconductance amplifier, and wherein the second amplifier comprises a differential amplifier, wherein the integrator comprises a capacitor coupled between an output of the first amplifier and an output of the second amplifier, and wherein the compensated amplifier further comprises a resistor coupled between the output of the first amplifier and a return. 2. The compensated amplifier for use in a power converter controller, comprising: a first amplifier coupled to receive a sensed signal and a reference signal and configured to generate a first error signal in response to the sensed signal and the reference signal; a second amplifier coupled to the first amplifier and configured to generate a second error signal in response to the first error signal from the first amplifier; an integrator coupled to the first amplifier and configured to generate an integrated error signal in response to the first error signal; and an arithmetic operator coupled to the second amplifier, wherein the arithmetic operator is configured to generate a control signal in response to the integrated error signal and the second error signal, wherein an input of the second amplifier is coupled to receive the first error signal of the first amplifier to generate the second error signal. 3. A compensated amplifier for use in a power converter controller, comprising: a first amplifier coupled to receive a sensed signal and a reference signal and configured to generate a first error signal in response to the sensed signal and the reference signal; a second amplifier coupled to the first amplifier and configured to generate a second error signal in response to the sensed signal and the reference signal; an integrator coupled to the first amplifier and configured to generate an integrated error signal in reesponse to the first error signal; and an arithmetic operator coupled to the second amplifier, wherein the arithmetic operator is configured to generate a control signal in response to the integrated error signal and the second error signal, wherein the first amplifier comprises a first transconductance amplifier, and wherein the seond amplifier comprises a second transconductance amplifier, wherein the integrator comprises a capacitor coupled between an output of the first amplifier and a return, and wherein the compensated amplifier further comprises a first resistor coupled between the output of the first amplifier and the return. 4. The compensated amplifier of claim 3 , wherein the compensated amplifier further comprises: a third amplifier having an input coupled to the capacitor and an output coupled to the arithmetic operator, wherein the third amplifier comprises a third transconductance amplifier; and a second resistor coupled between the output of the third amplifier and the return. 5. The compensated amplifier for use in a power converter controller, comprising: a first amplifier coupled to receive a sensed signal and a refeerence signal and configured to generatre a first error signal in response to the sensed signal and the reference signal; a second amplifier coupled to the first amplifier and configured to generate a second error signal in response to the sensed signal and the reference signal; an integrator coupled to the first amplifier and configured to generate an integrated error signal in response to the first error signal; and an arithmetic operator coupled to the second amplifier, wherein the arithmetic operator is configured to generate a control signal in response to the integrated error signal and the second error signal, wherein the first amplifier is a first operational amplifier having a first input coupled to receive the sensed signal through a first resistor, and a second input coupled to receive the reference signal; and wherein the integrator comprises a capacitor coupled between the output of the first operational amplifier and the first input of the first operational amplifier. 6. The compensated amplifier of claim 5 , wherein the second amplifier comprises a transconductance amplifier, wherein compensated amplifier further comprises a second resistor coupled between the output of the first operational amplifier and an output of the transconductance amplifier, and wherein the control signal is taken from a node between the second resistor and the output of the transconductance amplifier. 7. The compensated amplifier of claim 5 , wherein the second amplifier is a second operational amplifier, wherein the second operational amplifier incudes a first input coupled to receive the sensed signal, wherein the second operational amplifier incudes a second input coupled to receive the reference signal, and wherein an output of the second operational amplifier is coupled to the first input of the second operational amplifier. 8. The compensated amplifier of claim 7 , wherein the arithmetic operator comprises a summing amplifier having a first input coupled to the output of the first operational amplifier, wherein the summing amplifier has a second input coupled to the output of the second operational amplifier, and wherein the summing amplifier has an output coupled to generate the control signal. 9. A controller for use in a power converter, comprising: a driver modulator configured to generate a drive signal in response to a control signal to control switching of a power switch of the power converter to regulate transfer of energy from an input of the power converter to an output of the power converter; and a compensated amplifier configured to generate the control signal in response to a reference signal and a sensed signal representative of the output of the power converter, wherein the compensated amplifier comprises: a first amplifier coupled to receive the sensed signal and the reference signal and configured to generate a first error signal in response to the sensed signal and the reference signal; a second amplifier coupled to the first amplifier and configured to generate a second error signal in response to the sensed signal and the reference signal; an integrator coupled to the first amplifier and configured to generate an integrated error signal in response to the first error signal; and an arithmetic operator coupled to the second amplifier and configured to generate a control signal in response to the integrated error signal and the second error signal. 10. The controller of claim 9 , wherein an input of the first amplifier and an input of the second amplifier are coupled together to receive the sensed signal and the reference signal to generate the first error signal and the second error signal, respectively, in response to the sensed signal and the reference signal. 11. The controller of claim 10 , wherein the first amplifier comprises a first transconductance amplifier. 12. The controller of claim 11 , wherein the sec