SU452054A1 - Adaptive Differential Pulse Code Modulator - Google Patents

Description

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The invention of the OTHOCVITCH to electrical communication technology and can be used to convert waveforms from continuous to digital for transmission over discrete channels.

In known devices, the input of the extrapolator is connected to the output of the analog-to-digital converter, vi, the prediction is carried out using the difference between the true values and the previously predicted values converted to digital and output to the communication channel.

The purpose of the invention is to increase reliability.

This goal is achieved by additionally inserting a convertible signal meter into the modulator, the first input of which is connected to the input of the subtracting unit, the second input together with the second input of the storage unit, the third input of the extrapolator and the input of the frequency divider is connected to the output} of the cronizer, and the output to the first inputs of the extrapolator and the storage unit, the output of the latter is connected to the second input of the extrapolator, the output of the JKOToporo is connected to the parallel-connected second inputs of the subtraction unit and the analog-digital converter .

The drawing shows a device.

The device contains a signal meter 1, a storage unit 2, an extrapolator 3 subtraction unit 4, an analog-to-digital converter 5, a synchronizer 6, a frequency divider 7.

The device works as follows.

The continuous signal is fed simultaneously to the subtraction unit 4 and the meter. In meter 1, its samples are taken at a high clock frequency and converted into digital pulse sequences, which are used to measure the value of the SRI of the samples and parameters of the signal. The measurement results are fed to the extrapolator 3 and at the same time accumulating 01x: in the storage unit 2, In the extrapolator 3, according to the current and accumulated results, the prediction of the value of the future signal reference is carried out. This value, on the one hand, is remembered and then compared.

It is true for using errors in the self-learning of an extrapolator, and on the other hand, it is fed to subtraction unit 4, where the magnitude and sign of the difference between it and the true value of the current reference point are determined. The resulting difference, which is a time-discrete and continuous signal, is converted into a digital sequence of pulses by an analog-to-digital converter 5. It is sampled with a clock frequency smaller than that of the meter, determined by the frequency divider 7, quantizing is performed. signal level with variable step in digital coding

quantized samples. The change of the quantization step by level occurs according to the signals from the output of the extrapolator 3 and reflects the ability of the proposed modulator to adapt, to work in a wide dynamic range due to the auto-tuning of its parameters in accordance with the changing characteristics of the converted signal, Pulses of digital sequences from the output of the analog-to-digital converter

in the communication channel with the required speed.

Subject invention

An adaptive differential pulse-modulator module containing a subtraction unit, an analog-digital converter, an extrapolator, a high-frequency synchronizer, a storage unit and a frequency divider, characterized in that, in order to increase reliability, a converted signal meter is added to it, the first input of which connected to the input of the subtraction unit, the second input together with the second input of the storage unit connected in parallel, the third input of the extrapolator and the input of the frequency divider is connected to a high output terminal synchro-frequency, and the output - to paralg. directly connected to the first inputs of the extrapolator and the storage unit, the output of the latter is connected to the second input of the extrapolator, the output of which is connected to the second parallel-connected second, subtracter and analog-digital converter.

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