Adaptive control and testing system for an adaptive receiver

What is claimed is: 1. An adaptive receiver comprising: a current buffer that receives an input current; an inverter based transimpedance circuit that receives a buffered current from the current buffer and converts the buffered current to a variable gain voltage; an average current control loop that feeds back from the inverter based transimpedance circuit to the current buffer, wherein the average current control loop adaptively controls an average current into the current buffer; a variable gain circuit that receives variable gain voltage from the inverter based transimpedance circuit and outputs a differential voltage; a differential amplifier that receives the differential voltage output from the variable gain circuit and outputs an amplified differential voltage; an automatic gain control loop that feeds back from the differential amplifier to the inverter based transimpedance circuit and variable gain circuit, wherein the automatic gain control loop adaptively controls a peak to peak voltage output by the differential amplifier based on a desired peak-to-peak level for the output of the differential amplifier; and a differential buffer that receives the amplified differential voltage output from the differential amplifier and outputs recovered radio frequency signals. 2. The adaptive receiver of claim 1 , further comprising an offset cancellation loop that feeds back from the differential amplifier to the variable gain circuit that adaptively controls a bias point of the differential amplifier to obtain a desired bias point for the differential amplifier. 3. The adaptive receiver of claim 2 , wherein the offset cancellation loop comprises: a low pass filter system that receives the differential voltage output from the differential amplifier and outputs filtered voltages that are averages of the differential voltage; a differential amplifier that receives the filtered voltages output from the low pass filter system and outputs an amplified differential voltage; and a differential feedback transconductance amplifier connected to outputs of a gm stage in the variable gain circuit that controls the bias point of the differential amplifier. 4. The adaptive receiver of claim 1 , wherein the average current control loop and the automatic gain control loop increases a dynamic range for the adaptive receiver. 5. The adaptive receiver of claim 1 , wherein the average current control loop comprises: a low pass filter having an input connected to an output of the inverter based transimpedance circuit, wherein the low pass filter receives the variable gain voltage from the inverter based transimpedance circuit and outputs an average level of the variable gain voltage as an average voltage; an amplifier having a first input that receives the average voltage from the low pass filter and a second input that receives a reference voltage and outputs an output voltage, wherein the voltage output from the amplifier becomes greater as the average voltage from the low pass filter becomes greater than the reference voltage; and a voltage-controlled current source controlled by the output voltage output from the amplifier, wherein the voltage-controlled current source reduces the average current into the current buffer as the output voltage received from the amplifier increases. 6. The adaptive receiver of claim 1 , wherein the automatic gain control loop comprises: a peak detector that detects a peak voltage of a differential voltage output from the differential amplifier and outputs a peak voltage at a detector output; and an integrator that receives the peak voltage from the peak detector and a reference peak voltage and outputs an integrated gain controlling voltage signal that controls a peak-to-peak value of the differential voltage output by the variable gain circuit. 7. The adaptive receiver of claim 1 , wherein the differential buffer outputs a recovered radio frequency signal encoding data. 8. The adaptive receiver of claim 1 , wherein the current buffer, the inverter based transimpedance circuit, the average current control loop, the variable gain circuit, the differential amplifier, the automatic gain control loop, and the differential buffer are formed in an integrated circuit.