Transimpedance amplifier with bandwidth extender

What is claimed is: 1. A photodetector with a transimpedance amplifier comprising: a photodetector configured to receive and process an optical signal to generate a photodetector output that represents the optical signal; a transimpedance amplifier having a transimpedance amplifier input and a transimpedance amplifier output, the transimpedance amplifier input configured to receive the photodetector output, the transimpedance amplifier including; a first stage comprising a transistor and a load element, the first stage connected to the photodetector output and having a first stage output; a second stage comprising a transistor and a load element, the second stage connected to the first stage output and having a second stage output; a third stage comprising a transistor and a load element, the third stage connected to the second stage output and forming the transimpedance amplifier output; a first feedback loop including feedback resistor, the feedback loop connected between to the transimpedance amplifier output and the transimpedance amplifier input; and a bandwidth extender including an active element, a bandwidth extender connected between the first stage output and the second stage output. 2. The photodetector with a transimpedance amplifier of claim 1 , wherein the active element in the bandwidth extender is a FET such that the FET has a gate terminal connected to the second stage output and a drain terminal connected to the first stage output. 3. The photodetector with a transimpedance amplifier of claim 1 , wherein the bandwidth extender is configured to provide positive feedback from the second stage output to the first stage output to increase the gain of the transimpedance amplifier. 4. The photodetector with a transimpedance amplifier of claim 1 further comprising a switch configured to receive an enable signal that selectively enables or disables the bandwidth extender. 5. The photodetector with a transimpedance amplifier of claim 1 wherein the first stage, second stage, and third stage include a FET acting as an amplifier and an active load or a passive load. 6. A method for processing a photodetector output with a transimpedance amplifier to generate a corresponding amplified voltage comprising: receiving the photodetector output current at a first stage amplifier of the transimpedance amplifier having one or more amplifier stages; receiving a feedback signal from a feedback path at the first stage amplifier, the feedback path including feedback resistor; amplifying the feedback signal and the photodetector output with the one or more amplifier stages to generate a transimpedance amplifier output signal; presenting the transimpedance amplifier output signal as an input to the feedback path; performing bandwidth enhancement by amplifying an amplifier stage output signal from one of the one or more amplifier stages and presenting the amplified amplifier stage output signal as positive feedback to an input of the one or more amplifier stages to increase the gain of at least one amplifier stage of one or more amplifier stages of the transimpedance amplifier to thereby increase the bandwidth of the transimpedance amplifier. 7. The method of claim 6 , further comprising receiving a control signal to selectively enable or disable bandwidth enhancement. 8. The method of claim 6 further comprising detecting, such as by filtering, unwanted high frequency content in the transimpedance amplifier input or photodetector output and responsive thereto disabling the bandwidth enhancement. 9. The method of claim 6 wherein the one or more stages comprises three stages. 10. The method of claim 6 wherein the photodetector or transimpedance amplifier operates at multi-data rates, higher or lower than 2.5 Gbps. 11. The method of claim 6 wherein the method is performed in a ROSA or other type optical packages of a passive optical network. 12. The method of claim 6 wherein performing bandwidth enhancement by amplifying an amplifier stage output signal.