CS206594B1 - Connexion for decoding of synchronous mixture transferred by coded modulation of composite signal - Google Patents

Description

The invention relates to a circuitry for decoding a synchronization mixture transmitted by a complete television signal modulation modulation, the passive areas of which are created during the period of transmission of line blanking pulses for the transmission of supplementary information, for example encoded soundtrack signals, alphanumeric character codes and the like.

In order to extend the passive areas formed at the line blanking intervals, a circuit for decoding a synchronization mixture transmitted by a full-frame codec modulation according to the invention has been developed, the principle being that the source of the television signal with the pulse modulation component is connected to the input it is coupled to the input of the return pulse source, the output of which is connected to the second gate input, while the first input is connected to the separator input and the output is connected both to the input of the coded signal reader and the shift register input; signal is connected to the first input of the counter and gate of the reading pulse, whose second input is connected to the output of the synchronization pulse separator, while its first output is connected to the clock input p the output terminals of which are connected to the inputs of the sources of the synchronization mixture components, the outputs of which are connected to the inputs of the summing gate for shaping the synchronization signal provided with the output terminal.

The transmission time of the sync pulses is shortened so that the sync pulses of the newly generated signal do not exceed the 1 / us time interval in their width, the front edge position information of the standard television signal being transmitted by the front of the shortened sync pulse. Information about the position of the rear edge of a standard television signal, ie information about the type of synchronization pulse, row, buffer, field, is transmitted to two206594

206594 2 bit code, the layout of which is given in Table 1.

Table 1

Type of synchronization pulse Corresponding code Line sync pulse 0 1 Equalizing impulse 1 0 Field sync, impulse 0 0

The structure of the line blanking interval is shown in Fig. 1. The start of the transmission of the 2-bit code in the signal is indicated by the pulse transmitted with logic level log 1. It is not decisive whether the code is or is not transmitted with zero crossing.

The advantage of the described code transmission of the synchronization signal is that it allows the passive areas of the line blanking interval to be expanded without reducing the content of the information transmitted by the encoded synchronization signal. The decoding of the synchronization signal, the structure of which corresponds to FIG. 1, is carried out by the circuit according to the invention, the circuit diagram of which is illustrated in FIG. 2, in which the complete television signal with the code transmission of the synchronization signal is converted to the input terminal A.

From the output terminal B of the separator 1, the split signal of the shortened synchronization pulses is applied to the input C of the source 2, the gate pulse of the signal transmitted in the passive region of the video signal. The gate pulse taken from the terminal D of the source 2 is applied to the input E of the gate 2 of the signal transmitted in the passive region of the video signal. The complete supplementary information signal comprising the two-bit sync signal code, generated by the input signals transferred to the gate terminals F, E, is routed from the output terminal G of the gate 2 to the input H of the read pulse source 4 forming the pulse signal with a repetition rate equal to the bit rate of the additional signal bit pulses.

read pulses taken from terminal 2 of source 4 are applied to input J of circuit 2 of the zeroed or adjusted constricted sync pulse signal taken from terminal B of separator J. · This signal, together with the read pulse signal, is transferred to terminals K and J of the circuit 2. Read pulse counters and gates. The read pulse gate is opened by the counter output signal so that a series of three pulses corresponding to the pulse position of the first three logical signal levels of the supplementary information, i.e. corresponding to the marker position and two bit positions in each supplemental signal word, are transferred to the output terminal L '. pulses of the synchronization signal code.

These sets of triplets pulse taken from the output terminals L circuit 2. i ^e Controlled Clock • M above input shift register 6 in which is recorded information about the content of the code synchronization signal, ie. The information 01, 10, respectively. It is clear that in the case of applying multi-level modulations, the signal divided by the gate 2 in the gate 2 circuit must be converted to a binary signal. The binary signal is converted to the input terminal N of register 6, the level 1 log corresponding to the marker. in the process of writing to the register 6 is ejected. Thus, the output terminals Q1 to ¢ 4 of the register 6 are converted to a two-bit code signal at both transmitted and inverted levels, the content of which is constant over a period of time corresponding to the period between the transmission of two adjacent words of the supplementary signal.

The input terminals X1 to X4 of the combination network 2 are connected to terminals Q1 to Q4, evaluating the moment of onset of each type of synchronization pulses, so that if the line sync pulses pass the control pulse leading to the input terminal P of the source 8 If the buffer pulse code arrives, a control pulse is applied to terminal Y2 of the combination network 2 to the input terminal H of the buffer synchronization source 2, and if the field sync pulse code is received, the control pulse to the input Y3 terminal S sources of 10 field sync pulses. A control pulse is always applied to the output terminals Y1 to Y3 of the combination network 2 at the same time. The position of the sync pulse fronts shaped by the described procedure corresponds to the time defined by the signal coming from the evaluated coded group to terminals Q1 to Q4 of register 6 and the delay in the combination network 2. can be secured by resetting, respectively. by setting the register 6 of the truncated sync pulse signal applied to terminal W of register 6.

If it is desired to provide a more precisely defined position of the faces of the reconstructed synchronization pulses, it is possible between the outputs Y1. Y2, Y3 and inputs P, R, S to assign the product gate, controlled by pulses, derived from the read signal taken from terminal 2 of source 2 ·

In this case, resetting at terminal W of register 6 can be omitted.

The signal components of the synchronization signal, extracted from the terminals T, U, V relevant sources 8 2 10 0 ^e fed to inputs Z1. Z2. From the summing gate 11 of the sync mixture, from the output 0 the standard sync mixture signal is taken.

The function of the sync mixture signal decoder is performed by the circuit grouping from the counter 2 of the counter pulse of the shift register 6, the combination network 2> of the sources 8,

2, 10 components of the synchronization mixture and the summation gate 11.

Claims (1)

SUBJECT OF THE INVENTION A circuit for decoding a synchronization mixture transmitted by a complete TV signal modulation modulation, characterized in that the TV signal source with the pulse modulation component is. connected to the input (A) of the sync pulse separator (1), the output of which (B) is connected to the input (C) of the return pulse source (2), the output of which (D) is connected to the second input (E) of the gate (3) whereas the first input (F) is connected to the input (A) of the separator (1) and the output (C) is connected both to the input (H) of the read pulse source (4) and to the input (N) of shift register (6) ), wherein the output (I) of the read pulse source of the encoded signal (4) is connected to a first input (J) of the counter and gate of the read pulse whose second input (K) is connected to the output (B) of the separator (1). ) of the synchronization pulses, while the first output (L) is connected to the clock input (M) of the shift register (6), the terminals (Q1 to Q4) of which are connected to the input terminals (X1 to X4) of the combination network (7) (Y1 to Y3) are connected to inputs (P, R, S) of sources (8, 9, 10) whose outputs (T, U, V) are connected to the inputs (Z1, Z2, Z3) of the summation gate (11) after shaping the synchronization signal provided with the output terminal (0).