Abstract: A communications system includes a transmitter device, a receiver system, and a communications link. The communications link couples the transmitter device and the receiver system. The receiver system includes a receiver device and a processor. The transmitter device transmits a data signal. The receiver device receives the data signal from the communications link. The processor is electrically coupled to the receiver device to receive the data signal. The processor regenerates the data signal to compensate for the effects of the communications link on the data signal. Then, the processor outputs the regenerated data signal.

Abstract: A communications processor is presented that is capable of receiving a potentially degraded data transmission signals operating at high transmission rates and generating an improved data transmission signal in a manner that allows the signals to be transmitted over longer distances than is otherwise possible using conventional methods. The communications processor includes a decoding mechanism configured to compensate for amplitude and phase distortions of the data transmission signal, to split the corrected data signal into component data signals, to generate a data clock reference signal based on the data transmission signal and the external clock reference signal, and to convert the component data signals into digital component data signals synchronized to the data clock reference signal.

Abstract: Provided is a system and method for removing the effects of phase and amplitude distortions from data signals having at least a third order signal level in a North American Digital Signal Hierarchy. The reconstituted signals are directly modulated onto a radio frequency carrier signal using phase shit keying modulation techniques and then wirelessly transmitted via a transmitter. Further, the wirelessly transmitted reconstituted data signals are received by a corresponding receiver using a squaring loop carrier recovery operation.