RU2001110569A - The method of phase-structural transformations of signals and a device for its implementation - Google Patents

Claims (3)

1. The method of phase-structural transformations of the signals, based on filtering, sampling the source signal, followed by storing samples and sequential amplification and summing operations, characterized in that each discrete signal sample is multiplied by the calculated impulse response, which is formed as a sequence of time samples, each the signal sample is converted into a set of time samples, the number of which corresponds to the number of samples of the impulse response, converted (my ifitsirovannye) amplify samples of each channel are summed and after filtering the modified signal is obtained with the desired fazostrukturnymi changes. 2. The method of phase-phase transformations of the signals according to claim 1, characterized in that the frequency and moments of readings of the impulse response coincide with the frequency and moments of sampling the original signal, while the calculated impulse response is determined based on the desired phase spectrum or the desired phase-frequency characteristic, as follows ratio:

, where g (t) is the impulse response; To _o is a constant gain; φ (ω) is the phase spectrum or phase-frequency characteristic; ω is the angular frequency; ω _g is the cutoff frequency; t is the time parameter; π = 3.14159 .... 3. The device according to claim 1, containing a series-connected first low-pass filter, a sampler and a discrete-analog delay line, while the second input of the sampler and the second input of the discrete-analog delay line are connected to the output of the clock, a set of N amplifiers, the outputs of which are connected to the inputs of the adder, characterized in that N multipliers are introduced into it, an impulse response sampler, a second low-pass filter, and each of the N outputs of the discrete-analog delay line is connected to the first inputs of the multipliers, the second inputs of which are connected to the corresponding N outputs of the impulse response sampler, the input of which is connected to the output of the clock generator, the output of each of the N multipliers is connected respectively to the input of each of the N amplifiers, and the output of the adder is connected to the input of the second low-pass filter, the output which is the output of the device.