SU527020A1 - Data Signal Generator - Google Patents

Description

one

The invention relates to data transmission systems and can be used in the development of synchronization devices, the measurement of their characteristics, the simulation of synchro sequences in the general symbol stream of an information video signal with predetermined distortions.

The known generator of the video signal of the data transmission system, contains a source of clock pulses, the output of which is connected to the input of the trigger frequency divider and through the first element “And to the inputs of the frame shift register, and the outputs of the trigger frequency splitter are connected to two switching units, and the second element“ I.

However, the known generator does not provide a sufficiently accurate modeling of the information flow in the conditions of interference.

The purpose of the invention is to improve the accuracy of modeling information flow in the conditions of interference.

This is achieved by introducing a frame interval shaper, random pulse generator, modulo two adder, key circuit, fault interval shaper, subframe interval shaper, subframe shift register, OR element, additional AND elements, and shaper of distortion intervals, input which is connected with the first switching unit, and the output through a series-connected random pulse generator and summation module two - with a key circuit, the control input of which through l intervals failures connected to the second switching unit. At the same time, the corresponding outputs of the trigger splitter are connected to the frame and subframe imagers, and the output of the subframe intervals are connected via the second element “And to the inputs of the subframe shift register, the outputs of which are connected to the first inputs of the additional elements“ And, the second inputs of which are connected to the outputs frame shift register, and the outputs of the additional elements "And through the element" OR are connected to the control input of the modulo-two adder, and the output of the frame shaper about

interval is connected to the second inputs of the first and second elements of "I.

The drawing shows a block diagram of the proposed generator.

The generator contains a source of clock pulses 1, the output of which is connected to the input of the trigger frequency divider 2. The corresponding outputs of the trigger frequency divider 2 are connected to the inputs of switching units 3 and 4 and with the imaging unit of the frame interval 5 and subframe interval 6. The switching unit 3 is connected through the driver distortion intervals 7 with a random generator 8, consisting of a source of noise voltage 9 and a discrete noise generator 10. The shaper of the frame interval 5 is connected to the input element "And 11, second A swarm whose input is connected to the output of the clock source 1. The output of the element "And connected to the inputs of the personnel shift register 12. The outputs of the drivers 5 and 6 are connected to the inputs of the element" And 13, the output of which is connected to the inputs of the subframe shift register 14. The outputs of the registers 12 and 14 are connected via the elements "AND 15, 16, the element" OR 17 to the control of its modulo two adder 18, the second input of which is connected to the output of the random pulse generator 8. The output of the adder 18 is connected to the input of the key circuit 19, controlled by which entrance is connected to in the output of the switching unit 4 through the driver of the failure intervals 20. The generator operates as follows. The output signals of the clock source 1, whose frequency is equal to the clock frequency of the data transmission system, are sent to the trigger divider 2, where their frequency is divided to the frame rate and subframe frequencies, as well as the selected failure rates. Using the framers of the frame interval 5 and subframe interval 6, the duration of the frame and subframe sync sequences are specified. In order to obtain frame synchronization, the input of the frame shift register 12 with feedback, which determines the type of sequence, receives 11 clock pulses from the AND 11 element, where it is determined by the duration of the strobe pulse generated in the imaging unit 5. In accordance with known principles register output 12 forms a bottom pseudo-random frame sync pattern. Similarly, the subframe is a bit of the bottom, the synchro sequence is formed with k frame pulses coming from the element "AND 13, while k is determined by the duration of the strobe pulse generated by the former 6. Next, using the elements" AND 15 and 16 and the element "OR 17, a total sync sequence, which is a combination of forward and reverse frame sync codes, changing according to the law of a pseudo-random subframe sync sequence. The sync code is distorted by adding the total sync sequence symbols with randomly distributed pulses of the generator 8 using an adder but modulo two 18, which allows uniformly "1 and" O characters to be distorted. The random pulse generator 8 generates a random sequence of pulses, which is an imitation of information between sync codes. In addition, using a block

switching 3, performed, for example, in the simplest case as a set of switches, certain outputs of trigger frequency splitter 2 are connected to a distortion interval former 7, where pulses are generated with the phase and frequency of frame sync sequences and the duration determined by switching unit 3. Setting the required level sync code distortions are performed by gating the discrete noise generator 10 to certain parts of the frame sync code. At the generator output, a simulated signal representing

a stream of information symbols having a random character and distorted sync codes enters through the key circuit 19, controlled by the switching unit 4 and the driver 20, by means of which the duration of the failure intervals is set. Thereby, short-term interruptions of information and sync sequences are simulated.

Claims (1)

Invention Formula The video signal generator of the data transmission system, containing a clock source, the output of which is connected to the trigger frequency splitter input and through the first element And to the inputs of the frame shift register, and the trigger frequency splitter outputs are connected to two switching units, and the second element And, different in order to increase accuracy of information flow modeling in terms of interference; a frame interval shaper, random pulse generator, modulo two modulator, key circuit, fault interval generator, subframe interval shaper, subframe shift register, and OR element and shaper are entered distortion intervals, the input of which is connected with the first switching unit, and the output through a series-connected random pulse generator and modulo two modulator - with a key circuit, controlled which input is connected to the second switching unit through the failure interval generator, the corresponding outputs of the trigger splitter are connected to the HR and subframe intervals, and the output of the subframe interval are connected via the second And element to the subframe shift register, whose outputs are connected to the first inputs of the additional elements "And, the second inputs of which are connected to the outputs of the personnel register shift, and the outputs of the additional elements "And through the element" OR are connected to the control input of the modulo-two adder, and the output of the frame interval shaper is connected to the second inputs of the first and second elements "I.