CS261263B1 - Wiring to reduce errors in the digital signal receiver - Google Patents

Abstract

Current digital signal receivers are usually designed as a cascade connection of regenerative and output circuits, while the regenerative circuits can be equipped with a circuit for localization and identification of errors. Their disadvantage is that they do not allow for correction of an erroneously regenerated signal, so such a signal is further processed as a correct signal. In repeaters with adaptive quantized feedback, which are equipped with a circuit for localization and identification of errors, the aforementioned disadvantage is eliminated by a circuit, the essence of which is that the signal output of the regenerative circuits is connected to the signal input of a memory element, to the output of which the output circuits are connected, and the output of the error flags of the regenerative circuits is connected to the input of a logic element, the output of which is connected to the correction input of the memory element.

Description

The invention relates to a circuit for reducing errors in a digital signal receiver, in particular a receiver with adaptive quantized feedback, which consists of regenerative circuits equipped with a circuit for locating and identifying errors, and output circuits connected thereto.

Current digital signal repeaters can be described as a cascade connection of regenerative and output circuits. In regenerative circuits, the incoming signal is amplified, corrected and detected, in the output circuits the detected signal is shaped and impeded to be transmitted to other members of the transmission chain.

A disadvantage of the known circuits is that such a signal element which has been detected in the regenerative circuits continues to be treated as the correct element, even if it has been detected incorrectly. With known link codes, it is possible to determine with satisfactory probability that a transmission error has occurred, but it is almost impossible to accurately quantify the error.

In digital signal receivers equipped with a localization and fault identification circuit, this disadvantage is completely or largely eliminated by the circuitry of the invention, which is characterized in that the signal output of the regenerative circuits is connected to the signal input of the memory member to which the output is connected. the circuitry and error flag output of the regenerative circuitry is coupled to the input of a logic member, the output of which is connected to the correction input of the memory member.

The main advantage of the circuitry according to the invention is that it allows the elimination of bends detected by the fault location and identification circuit, which, while maintaining the same relative error rate in the output signal, allows signal transmission at a lower signal to noise ratio at the repeater input than with known repeaters.

In the accompanying drawing, an example of a circuit according to the invention is shown in a block diagram.

This input is connected to the signal input 2 of regenerative circuits 2 · Signal output two regenerative circuits 2 j ^e connected to the signal input 6 of the memory member 5 and the output £ error flags regenerative circuits 2 s ^e connected to the input logic element 2 whose output is connected to correction input 2 of the memory element 5. the output of the memory element 2 ^e j connected to the input output circuits 9, whose output is connected to the output circuit.

The signal coming to the signal input 2 of the regenerative circuits 2 is amplified, corrected and detected therein. The detected signal elements advance to the memory member 2 ·

If the non-plotted fault location and identification part of the regenerative circuits 2 does not provide bend detection information, the signal passes through the memory member 5 unchanged to the output circuits 2 ^{and then} to the non-plotted subsequent transmission element. If the fault locating and identifying circuit detects an erroneous decision, it informs the logic member 2 via the error flag output 2 of the regenerative circuits 2 which, via the correction input 2 of the memory member 2, corrects the signal composition before sending it to the next transmission member. The capacity of the memory member 2 is such that the circuit for locating and identifying errors in the regenerative circuits 2 and the logic member 2 is sufficient to evaluate the error flag and correct the information in the memory member 2.

Claims (1)

SUBJECT OF THE INVENTION Error reduction circuitry in a digital signal receiver, consisting of regenerative circuits equipped with a circuit for locating and identifying errors, and associated output circuits, characterized in that the signal output (3) of the regenerative circuits (2) is connected to a signal input (6) a memory member (5) whose output is connected to output circuits (9) and the error flag output (4) of the regenerative circuits (2) is connected to an input of a logic member (8) whose output is connected to a memory member correction input (7) (5).