Reconfigurable optical receivers for extended maximum input signals

We claim: 1. An optical receiver comprising: a photodetector capable of generating an input current in response to an optical signal; a trans-impedance amplifier (TIA) capable of converting the current into a voltage; wherein the TIA includes a first feedback loop including: a first input for receiving the current from the photodetector; a first transistor with first and second terminals, the first terminal connected to the first input, and the second terminal connected to a first output; and a first variable feedback resistor between the first terminal and the second terminal; a variable gain amplifier (VGA) capable of amplifying the voltage to a desired output voltage; a first variable load resistor connected between a voltage source and the second terminal in parallel with the first terminal; and a gain control circuit capable of transmitting a first feedback resistor control signal for reconfiguring a resistance of the first feedback resistor for adjusting gain of the TIA, and capable of transmitting a first variable load resistor control signal to the first variable load resistor for reconfiguring a resistance of the first variable load resistor to compensate for a change in impedance caused by the change in resistance of the first feedback resistor. 2. The optical receiver according to claim 1 , further comprising: a biasing component for biasing the first transistor; wherein the first transistor also includes a third terminal connected to the biasing component; and wherein the gain control circuit is capable of transmitting a bias control signal to the biasing component for adjusting the biasing component to change the transconductance of the TIA to compensate for a change in impedance caused by the change in resistance of the first feedback resistor. 3. The optical receiver according to claim 2 , wherein the biasing component comprises a DC current source. 4. The optical receiver according to claim 1 , wherein the gain control circuit is capable of reducing the resistance of the load resistor when a level of the input current is within an upper part of a dynamic range of the TIA. 5. The optical receiver according to claim 1 , wherein the variable load resistor comprises: a transistor in parallel with a load resistor component; wherein the load resistor control signal is capable of biasing the transistor to adjust the resistance provided by the load resistor component. 6. The optical receiver according to claim 1 , wherein the variable load resistor comprises a first and second load resistor components connected in series; and further comprising a load resistor control circuit in between the first and second load resistor components; wherein the load resistor control signal is capable of turning the load resistor control circuit on, thereby shorting the second load resistor component and adjusting the resistance provided by the variable load resistor. 7. The optical receiver according to claim 1 , wherein the variable load resistor comprises: a plurality of load resistor components in parallel; and a switch in series with each load resistor component; wherein the variable load resistor control signal selects which switch and therefore which load resistor component provides resistance. 8. The optical receiver according to claim 1 , wherein the gain control circuit is also capable of measuring the output of the VGA, and adjusting the variable load resistor based on the output of the VGA. 9. The optical receiver according to claim 1 , wherein the gain control circuit is also capable of measuring the output of the VGA, and adjusting the variable feedback resistor based on the output of the VGA. 10. The optical receiver according to claim 1 , wherein the gain control circuit is also capable of transmitting a VGA gain control signal to the VGA for adjusting gain of the VGA. 11. The optical receiver according to claim 10 , wherein the gain control circuit is also capable of measuring the output of the VGA, and adjusting the VGA gain based on the output of the VGA. 12. The optical receiver according to claim 1 , wherein the TIA further comprises: a second feedback loop comprising: a second input forming a differential input with the first input; a second transistor forming a differential pair with the first transistor; the second transistor including fourth and fifth terminals, the fourth terminal connected to the second input, and the fifth terminal connected to a second output; and a second feedback resistor between the fourth terminal and the fifth terminal; and a second variable load resistor connected between the voltage source and the fifth terminal in parallel with the fourth terminal; wherein the gain control circuit is also capable of transmitting a second feedback resistor control signal for reconfiguring a resistance of the second feedback resistor, and capable of transmitting a second variable load resistor control signal to the second variable load resistor for reconfiguring a resistance of the second variable load resistor to compensate for a change in impedance caused by the change in resistance of the second feedback resistor. 13. An optical receiver comprising: a photodetector capable of generating an input current in response to an optical signal; a trans-impedance amplifier (TIA) capable of converting the current into a voltage; wherein the TIA includes a first feedback loop including: a first input for receiving the current from the photodetector; a first transistor with first, second and third terminals, the first terminal connected to the first input, and the second terminal connected to a first output; and a first variable feedback resistor between the first terminals and the second terminals; a variable gain amplifier (VGA) capable of amplifying the voltage to a desired output voltage; a variable biasing component connected to the third terminal in parallel; and a gain control circuit capable of transmitting a first feedback resistor control signal for reconfiguring a resistance of the first feedback resistor for adjusting gain of the TIA, and capable of transmitting a biasing control signal to the variable biasing component for reconfiguring a transconductance of the variable biasing component to compensate for a change in impedance caused by the change in resistance of the first feedback resistor. 14. The optical receiver according to claim 13 , wherein the biasing component comprises a DC current source. 15. The optical receiver according to claim 13 , wherein the gain control circuit is capable of reducing the resistance of the load resistor when a level of the input current is within an upper part of a dynamic range of the TIA. 16. The optical receiver according to claim 13 , wherein the gain control circuit is also capable of measuring the output of the VGA, and adjusting the variable load resistor based on the output of the VGA. 17. The optical receiver according to claim 13 , wherein the gain control circuit is also capable of measuring the output of the VGA, and adjusting the variable feedback resistor based on the output of the VGA. 18. The optical receiver according to claim 13 , wherein the gain control circuit is also capable of transmitting a VGA gain control signal to the VGA for adjusting gain of the VGA. 19. The optical receiver according to claim 18 , wherein the gain control circuit is also capable of measuring the output of the VGA, and adjusting the VGA gain based on the output of the VGA.