SU642855A1 - Apparatus for transmitting and receiving signals with amplitude-phase modulation and single side-band - Google Patents

Description

connected to the first inputs of the demodulator and the reducing resins, the output of which is connected to the second input of the demodulator, the output of which is connected to the second input of the carrier regenerator and to the first input of the second code converter, the output of which is connected to the input of the second clock generator, the output of which is connected to the second input of the second code converter, the relative phase modulation modulator and the phase manipulator, the output of which is connected to the second input of the balanced module, are entered on the transmitting side torus, the output of the first clock pulse generator is connected via a relative phase modulation modulator to the first input of the phase switch, to the second input of which a low-pass filter output is connected, on the receiving side a relative phase modulation demodulator is inserted, the inputs of which are connected to the outputs demodulator and second clock generator.

The drawing shows a structural electrical circuit of the device.

A device for transmitting and receiving signals with amplitude-phase modulation and one sideband on the transmitting side contains a first converter J codes, a low-pass filter 2, a balanced modulator 3, a driver of 4 signals of one side band, the first generator of 5 clock pulses, a driver 6 carrier oscillation, modulator of relative phase modulation 7 and phase manipulator AND, and on the receiving side amplifier 9, demodulator III, reducing agent 11 and carrying, second converter 12 codes, second generator 13 clock pulses and a demodulator of 14 phase modulation.

On the transmitting side, the output of the first converter 1 of the codes is connected to the input of the lowpass filter 2, and the balanced modulator 3 is connected in series with the driver 4 of the signals of one sideband, the output of which is connected to the input of the communication channel 15. The output of the first generator 5 clock pulses is connected to the inputs the first converter 1 of the codes and the driver 6 of the carrier oscillation, the output of which is connected to the first input of the balanced modulator 3, to the second input of which the output of the phase manipulator 8 is connected. The first input of the phase manipulator through modulation pool torus 8 Torr relative phase modulation 7 is connected to the output of the first clock pulse generator 5 and the second input of the phase manipulator 8 connected to the output filter 2 of lowpass.

At the receiving side, the output of communication channel 15 is connected to the input of amplifier 9, the output of which is connected to the first inputs

the demodulator 10 and the carrier restorer II, the output of which is connected to the second input of the demodulator 10. The output of the demodulator 10 is connected to the second input of the recovery carrier and the carrier and to the first input of the second converter 12 codes, the output of which is connected to the input of the second generator of 13 clock pulses, the output which is connected to the second converter 12 codes. The inputs of the demodulator 14 relative phase modulation are connected to the outputs of the demodulator 10 and the second generator 13 clock pulses, respectively.

The proposed device operates as follows.

The input 16 of the Converter 1 codes received binary signals of the two main channels. At the output of the I-code converter, a four-level signal appears that passes through the low-pass filter 2 and is fed to the second input of the phase manipulator 8, to the first input of which a binary signal of the additional channel connected to the 5th input is fed through the modulator of relative phase modulation 7 17 of the modulator 7. Depending on the type of the single element of the binary signal in the two main channels and in the additional channel, a signal is generated at the output of the phase manipulator 8 in accordance with the table.

The structure of the modulation code is chosen in such a way that the signal module at the output of the phase manipulator 8 determines the type of information transmitted via the two main channels, and the sign indicates the form and form5 of the Cs transmitted over the additional channel. Therefore, the binary signals of the two main channels are modulated in amplitude, and the additional channel in phase, which makes it possible to obtain a higher noise immunity in the additional channel.

The signals from the output of the phase manipulator 8 are fed to the second input of the balance / o modulator 3, to the first input of which oscillations from the driver 6 of the carrier oscillation are applied. In this case, the geerator 5 clock pulses synchronizes the converter of the I codes, the modulator of the relative phase modulation 7 and the driver 6 of the carrier wave. The output signal of the balanced modulator 3 through the shaper 4 0 signals of one sideband 4 is fed to the input of the communication channel 15.

From the output of the communication channel 15, the signal enters the input of the amplifier 9, and then the first input of the carrier 11, in which the reference voltage of the carrier is formed from the received signal, and the first input of the demodulator 10. The output of the demodulator 10 is supplied to the second input of the carrier 11, which allows to eliminate the influence of the fact.

generating the reference voltage of the carrier supplied from the carrier reducing agent 11 to the second input of the demodulator 10. In the demodulator 10 a signal is generated that arrives at the first input of the converter 12 of codes and to the input of the demodulator 14 relative phase modulation. In this case, the converter 12 codes only reacts to the module of the signal arriving at it, converts the four-level signal into two binary signals, and the demodulator 14 responds only to the sign of the incoming signal

signal, while restoring the original modulating signal of the additional channel. The output from the pre-processor 12 codes is input to the generator of 13 clock pulses, the signals of which are used in demodulator 14 and converter 12. At the output 18 of the converter 12 codes, two binary signals are generated, and the output 19 is a binary signal of an additional channel having a higher noise immunity than the first two channels.

Claims (1)

1. US patent No. 3204029, CL. 178-68, 1965.  : W: V ; Ji-V- U ft