Patent ID: 7817713
Filing Date: 2010-10-19
Classification: H03F,H04L

Abstract:
1. An enhanced reconditioning equalizer filter for use with non-constant envelope signals to enhance the performance of any communication transmitter, in any wireless cellular, Personal Communication System (PCS), wireless Local Area Network and Wide Area Network (LAN/WAN), Video and Audio Wireless Broadcasting, line of sight microwave, military, optical, and satellite communication systems and any other non-wireless applications, the enhanced reconditioning equalizer filter comprising: a first feedforward loop to adjust an injected in band baseband signal into a main baseband signal; a second feedforward loop to adjust an amount of out of band baseband signal injected into the main baseband signal; a peak reduction filter that performs peak reduction filtering to produce a peak reduced main baseband signal; a gain function that adjusts the gain of the main baseband signal; a controller that uses the main baseband signal, the output of enhanced reconditioning equalizer filter, and external information to provide control signals to various delay and gain functions as well as the peak reduction filter and a correlation function; a first feedforward loop comprising: a first gain element that adjusts the gain of the main baseband signal; a first delay element that adjusts the delay of the main baseband signal; a first subtractor that subtracts the delay and gain adjusted main baseband signal and the peak reduced main baseband signal; a correlation function that correlates the main baseband signal and the result of the subtraction of the peak reduced main baseband signal and the delay and gain adjusted main baseband signal to calculate the amount of the delay and gain adjustment for the main baseband signal; a digital finite impulse response (FIR) low pass filter with configurable coefficients that filters the result of the subtraction of the delay and gain adjusted main baseband signal and the peak reduced main baseband signal to remove or adjust the out of band baseband signal; a second gain element to adjust the low pass filtered subtraction of the peak reduced main baseband signal and the delay and gain adjusted main baseband signal; a first summer that adds the delay and gain adjusted main baseband signal and the gain adjusted low pass filtered subtraction of the peak reduced main baseband signal; a second feedforward loop comprising: a third gain element that adjusts the gain of the subtraction of the delay and gain adjusted main baseband signal and the peak reduced main baseband signal in the second feedforward loop; a second delay element that adjusts the delay of the subtraction of the delay and gain adjusted main baseband signal and the peak reduced main baseband signal in the second feedforward loop; a second subtractor that subtracts the results of the delay and gain adjusted subtraction of the delay and gain adjusted main baseband signal and the peak reduced main baseband signal and the low pass filtered subtraction of the delay and gain adjusted main baseband signal and the peak reduced main baseband signal; a fourth gain element that adjusts the gain of the subtraction of the results of the delay and gain adjusted subtraction of the delay and gain adjusted main baseband signal and the peak reduced main baseband signal and the low pass filtered subtraction of the delay and gain adjusted main baseband signal and the peak reduced main baseband signal; a second summer that adds the reconditioned and smoothened baseband signal result from first feedforward loop with the gain adjusted subtraction of the results of the gain and delay adjusted subtraction of the delay and gain adjusted main baseband signal and the peak reduced main baseband signal and the low pass filtered subtraction of the delay and gain adjusted main baseband signal and peak reduced main baseband signal to further condition and smoothen the main baseband signal.