SU502513A1 - "Device for generating a complex signal - Google Patents

Description

one

The invention relates to communications, can be used in multichannel communication systems with time division multiplexing.

A device for generating a complex signal is known, preferably for a multi-channel communication system with noise-like signals and time division multiplexing, comprising a subcarrier frequency shaping unit with switches at the inputs and a synchronization unit, the outputs of which are connected to the inputs of the time multiplexing channel.

The purpose of the invention is to increase the reliability of the device.

In the proposed device, to the inputs of each switch is connected via a group of keys the corresponding shift register, controlled by the synchronization unit, one of the outputs of the time channel multiplexing unit being connected to the input of one of the shift registers directly, and the other to the inputs of the other shift registers via And and “And - Not accordingly. In addition, the synchronization unit is connected to the control input of the circuit “P1 directly, and to the control input of the circuit“ AND - NOT - through a key, to one of the inputs of which the corresponding output of the temporary compaction unit is connected to the subfloor.

The drawing shows a functional diagram of the device.

Switches 2i are connected to the inputs of the subcarrier shaping unit 1;

2, one of the shift registers 4-4, controlled by a synchronization unit 5, which is connected to the inputs of the temporary sealing unit 6, is connected to the inputs of each of which, to the control input of the circuit "And 7" and to the control input of the circuit " AND - NOT 8 via key 9, one of the inputs of which is connected to the corresponding output of the temporary sealing unit of channels 6. One output of the latter

connected to the input of the shift register 4i directly, and the other to the inputs of the shift registers 42 and 4h through the schemes "And 7 and" AND NOT 8, respectively.

The device works as follows.

The synchronization unit 5 generates a sequence of channel pulses with a tracking frequency F, a sequence of pushing pulses for delta modulation in the blon of time multiplexing of channels 6 with a tracking frequency NF, where L is the number of channels, and a sequence of pushing pulses for shift registers with a tracking frequency mNF, where m is the number of sub-frequencies in a complex signal.

The low-frequency signals of all channels arrive at the block of time-compaction of channels 6, where delta-modulation and the formation of a multi-channel signal occur. From here, a sequence of pulses of informational units and zeros, following with a frequency of NF, simultaneously arrive at the circuit “AND 7” and the circuit “AND - NOT 8, to the second inputs of which the advancing pulses are received with the frequency of following NF from the synchronization unit 5. With the simultaneous arrival of the advancing pulse and the pulse corresponding to the information unit, the AND 7 circuit triggers and a pulse appears at its output, which is written to the first cell of the shift register 42. At the same time, the forward pulses are received from this register The following are the mNFs, which push the recorded information pulse through the cells. The time it moves along the cells of the shift register 42 corresponds to the period of the information pulses of the multichannel signal. As the information unit progresses along the cells of the shift register 42, the corresponding keys 3 are sequentially turned off and the output pulses of which start the amplifiers of the subcarrier frequency 1 in the sequence installed on the switch 22. The keys 3 normalize the pulses in amplitude and duration.

By the moment when the following information unit arrives at the AND 7 to AND AND NOT schemes, the formation of a complex signal is terminated. If the information unit again arrives at the schemes "And 7 and" And - NOT 8, the whole process is repeated. If an information zero arrives, the output of the “And 7” pulse is absent, and the shift register 42 does not work. But at this time, at the output of the AND-Not 8 circuit, an impulse appears corresponding to an information zero. This impulse arrives at the shift register 4з, which operates similarly to the shift register 42. The last channel information pulse in the group sequence is followed by the synchronization channel pulse, which forms its complex signal. It comes directly from the temporary compression unit 6 to the shift register 4i, which operates in the same way as the registers 42 and 4z during the transmission of information pulses. So that the “AND - HE 8” scheme does not work when the synchronization channel impulse is transmitted, this impulse from the temporary seal block 6 simultaneously enters the key 9 and locks it. At the same time, the advancing pulses from the synchronization unit 5 do not arrive at the AND circuit 8, there are no pulses at its output, and the shift register 4z does not start. After generating a complex synchronization pulse signal, the key 9 opens.

Subject invention

A device for generating a complex signal, mainly for a multichannel communication system with noise-like signals and time division channels, comprising a subcarrier frequency shaping unit with switches at the inputs and a synchronization unit whose outputs are connected to the inputs of the time channel multiplexing unit, characterized in that increase its reliability, to the inputs of each switch is connected through a group of keys the corresponding shift register, controlled by the synchronization unit, one of the outputs in the time channel the channels are connected to the input one of the shift registers directly, and the other to the inputs of other shift registers through the AND and P - NOT circuits, respectively, and the synchronization unit is connected to the control input of the And and directly The control input of the AND-NOT-scheme is through a key, to one of the inputs of which the corresponding output of the temporary channel sealing unit is connected.