SU613509A1 - Discrete information receiver - Google Patents

Description

the maximum signal torus 12 and the control unit 13, the outputs of which are connected to the control inputs of the reading units 5 of both channels 1 and 2, and a delay line 14 are inputted at the input of each channel 1 and 2, with additional keys 9 connected between the inputs of the delay line 14 of each channel 1, 2 and time delay analyzer 10, the outputs of which are connected respectively to the control inputs of delay line 14 of both channels 1, 2 and the correction input of control unit 13, and time delay analyzer 10 consists of time delay meter 15 and calculate delay bodies 16, in addition, the driver 17 of the control signal, the inputs 18 and the output 19 of the device.

The device works as follows.

Discrete signals are received in parallel to the inputs of the evaluation units 7 and to the inputs of the additional keys 9 and delay lines 14 of the automatic selection unit 8.

The imaging unit 17 according to the evaluation units 7 generates signals for opening the key 6 in that channel 1 (2), in which the quality of the received information is higher. The evaluation units 7, which operate on all received symbols, for example, by the method of extrapolating the error rate, also generate binary control signals for the additional keys 9 of the automatic selection unit 8. One or both of the additional keys 9 is opened if the quality of the data is above a predetermined threshold value.

This prevents the influence of the stunned channel on the channel with good quality of the transmitted data through the auto selection block 8. The incoming information is phased out by clock intervals in block 8 of auto selection and fed to cumulative registers 4. The capacity of cumulative registers 4 is determined by the word length necessary to confidently identify the data under interference conditions and the permissible time shift value. In the Multi-channel correlator 11, a cross-comparison of combinations of symbols of constant length from different cells of accumulative registers 4 is performed. As a result of the comparison, a pair of combinations of symbols is determined in detector 12.

The output width of the detector 12 corresponding to this pair determines the time shift between the received signals. In control unit 13, the read path number is calculated and the corresponding control signal is generated in read block 5, with the result that the received information passes to keys 6 synchronously. In block 13, the control signals are averaged from the output of the detector 12 to increase noise immunity, and in order not to lose the phasing speed when switching the circuit of the auto selector 8 for one clock cycle, an instantaneous correction signal is applied to the control unit 13 from the calculator 16.

Claims (1)

1. USSR author's certificate number 188540, cl. H 04H 1/02, 1966.