SU1169180A1 - Device for transmission of discrete information - Google Patents

Abstract

A DEVICE FOR DISTRIBUTING INFORMATION, containing a linear unit, as well as serially connected source of service discrete messages, a modulator, an automatic level controller, an adder and a transmitting unit, characterized in that, in order to improve the noise immunity with increasing transmission speed, a block is entered into it delays and serially connected communication channel simulator and interference analyzer, consisting of i-consecutively connected band-pass filter, demodulator and air conditioner, the output of which is It is connected to the second input of the automatic level controller, and the output of the line unit is connected via a delay unit to the second input of the adder and directly to the input of the analog signal of the communication channel simulator, the input of the service discrete signal of which is connected to the output of the modulator discrete messages are connected to the second input of the comparison block of the interference analyzer.

Description

The invention relates to communication technology and can be used to transmit discrete messages in analog channels of sound broadcasting, television and telephone signals.

The purpose of the invention is to increase noise immunity.

The drawing shows a structural electrical diagram of a system for transmitting discrete information.

The system comprises a linear unit 1, a delay unit 2, a communication channel simulator 3, an interference analyzer 4, an automatic level 5 controller, a modulator 6, a discrete service message source 7, an adder 8, a transmitting unit 9, a communication channel 10, a receiving unit 11.

The interference analyzer 4 consists of a band-pass filter, 12, a demodulator 13, a comparison unit 14.

The device operates as follows.

The main signal of the transmission channel (for example, audio broadcasting, telephone or television) transits through the transmission channel from the line unit 1 through the time delay device 2 and the adder 8 to the transmitting unit 9. A discrete signal from the source 7 service digital messages is transmitted to the transmitting unit 9 of the channel transmission through a modulator 6, an automatic level 5 controller and an adder 8, and is also fed to a communication channel simulator 3. In this case, the adjustment signal of the automatic level 5 controller is generated by the simulator 3 of the communication channel and the interference analyzer 4.

The simulator 3 of the communication channel can be made in the form of any nonlinear circuit simulating non-linear distortions characteristic of a given channel. For example, wired broadcast channels are characterized by distortions caused by the nonlinearity of the active elements.

The interference analyzer 4 provides reception of a signal in a given frequency band and generates a pulse in case of a failure of a code combination symbol.

The received unipolar pulse is used to adjust the Automatic level controller, while the signal of the service discrete message 10 and the distorted main analog signal of the transmission channel are simultaneously input to the analyzer 4 along the mech.

. Channel simulator 3 simulates possible maximum distortions 15 that can occur in the transmitting unit 9 after the adder 8. The harmonics of the main signal resulting from the created nonlinear distortions increase the level of interference for discrete signals when transmitting them in a higher frequency spectrum than the spectrum main signal.

Thus, the analyzer 4 through 25 turns out to be in conditions of receiving discrete signals similar to real reception conditions, and the comparison unit 14 gives a command pulse to the level 5 automatic controller 30 only in real cases of discrete information failure, after comparing it with the source source information.

At the same time, the delay unit 2 delays the main signal for an insignificant time necessary for the formation of a discrete signal with an increased level at the output of the automatic controller 5, which ensures an increase in the noise immunity of the device and, accordingly, an increase in the reliability of the reception of discrete information. An increase in the signal level of discrete messages, which are an obstacle to the main signal, occurs much less frequently than in the known devices, which significantly reduces the effect of this noise on the main signal.

With an increase in the transmission speed, the time required for the delay of the main signal by the unit 2 decreases.

Claims (1)

A DISCRETE INFORMATION TRANSMISSION DEVICE, comprising a linear block, as well as a serially connected source of discrete service messages, a modulator, an automatic level control, an adder and a transmitting unit, characterized in that, in order to increase the noise immunity with increasing transmission speed, a delay unit is introduced into it and series-connected communication channel simulator and interference analyzer, consisting of interconnected bandpass filter, demodulator and comparison unit, the output of which is connected to the second input of the automatic level controller, and the output of the linear unit is connected through a delay unit to the second input of the adder and directly to the input of the analog signal of the communication channel simulator, the input of the service digital signal of which is connected to the output of the modulator, and the output of the source of the service digital messages is connected to the second input of the comparison unit interference analyzer. >