RU2003104983A - METHOD AND DEVICE FOR INPUT ADAPTIVE DIGITAL PERFORMANCE FOR WIRELESS TRANSMITTER - Google Patents

Claims (6)

1. An adaptive digital predistortion input device for transmitting broadband digital signals using a wireless transmitter to a transmission channel comprising a modulator for modulating wideband digital signals, a predistortion input unit connected to a modulator for receiving and inputting predistortions into modulated signals, digital-to-analog ( D / A) a converter connected to a predistortion input unit for receiving and converting signals with a pre-input By means of signals coming from the predistortion input unit, an up-converter, connected to a digital-to-analog converter, designed to receive and convert the converted signals coming from a digital-to-analog converter, a power amplifier connected to an up-and-down converter, designed to receive and amplify signals converted with an increase in frequency coming from the upconverter, an antenna connected to a power amplifier designed to receive and not transmitting amplified signals coming from a power amplifier, a frequency down converter connected to a power amplifier designed to receive and transmit back part of the amplified signals from a power amplifier, a local oscillator connected between the frequency up converter and the frequency down converter, designed to transmit oscillation signals to up-converter and down-converter, analog-to-digital converter connected to a pon converter frequency conversion, designed to receive and convert the converted feedback signals coming from the frequency down converter, an adaptive predistortion controller connected to an analog-to-digital converter and a predistortion input unit, designed to receive converted feedback signals from an analog-to-digital converter and pre-emphasis parameters of the predistortion input unit with adaptive adjustment, and transmitting the adjusted pre-emphasis parameters to the pre-emphasis unit distortion, while the broadband digital signals intended for transmission are received in a digital predistortion input unit and processed using a digital predistortion input unit, then converted using a digital-to-analog converter and an upconverter, then amplified by a power amplifier and transmitted through an antenna, and at the same time, part of the amplified signals supplied to the output of the power amplifier is sent back through the feedback circuit, in which the feedback signals are converted from low using a frequency down converter and transform using an analog-to-digital converter, and process them using an adaptive controller for the predistortion parameter, in which the energy of out-of-band radiation of feedback signals is used as a target function, and the predistortion parameters are adaptively controlled by using the multi-parameter optimization process, which makes it possible to maintain a linear transmission characteristic in the transmission channel. 2. The adaptive digital predistortion input device according to claim 1, characterized in that the adaptive predistortion parameter controller comprises a power spectrum estimation module and an adaptive module, the signals supplied to the output of the analog-to-digital converter are transmitted to the power spectrum estimation module to estimate the power spectrum and into the adaptive module for adaptively adjusting the predistortion parameters intended for transmission to the predistortion input unit. 3. A method for inputting adaptive digital predistortions for transmitting broadband digital signals from a wireless transmitter to a transmission channel, comprising the steps of: a) performing a non-linear conversion opposite to the non-linearity characteristic of the transmission channel using a digital predistortion input unit for broadband digital signals, the digital input unit predistortion contains a set of predistortion parameters, b) amplification using a power amplifier of signals with introduced predistortions after pr moving through the conversion channel with increasing frequency, c) transferring back to the adaptive controller through the connector part of the amplified signals supplied to the output of the power amplifier, d) processing the feedback signals using the adaptive controller to obtain the out-of-band radiation energy of the feedback signals, and e) updating the predistortion parameters by using a multi-parameter module for finding the optimal value using out-of-band radiation energy as the objective function. 4. The method according to claim 3, characterized in that the use of out-of-band radiation energy as an objective function in step e) includes the use of out-of-band radiation energy of feedback signals as an objective function of an adaptive process for optimizing a predistortion parameter. 5. The method according to claim 3, characterized in that the update step includes using the predistortion parameters of the digital predistortion input unit as factors of the objective function, when the value of the objective function has a minimum value, the value of the corresponding factors represents the optimal values of the predistortion parameters. 6. The method according to claim 3, characterized in that the step of using a multi-parameter module for finding the optimal value for updating the pre-emphasis parameters in step e) includes the following steps: 1) selecting, if necessary, N + 1 source points in N dimensions, whose coordinates used as N parameters of the digital predistortion input unit, when N parameters are processed using the predistortion input unit, the out-of-band radiation energy of the corresponding feedback signals is measured accordingly, 2) the optimal point, the worst point, and the second worst point of N + 1 points based on the measured values of the out-of-band radiation energy, 3) the designation of all points except the worst point, in the form of reflection points of the worst point, 4) measurement of the values of the objective function corresponding to each from reflection points, if the value of the objective function corresponding to one of the reflection points is greater than the value of the objective function corresponding to the second worst point, the return and compression of one of the reflection points from the original reflection direction 5) determining whether the value of the objective function for the compressed reflection point remains still larger than the value of the objective function corresponding to the second worst point, and if so, halves the distance between the optimal point and all points, except for the optimal point, and 6) go to step 2) for the subsequent adjustment of the pre-emphasis parameters.