SU544180A2 - Device for transmitting time signals over a television broadcast channel - Google Patents

Description

signal input test lines, the source of time signals, the output of which is connected to the inputs of the marking unit and the start input of the correction definition block; The stop input is connected to the output of the marking block, the encoder, the inputs of which are connected to the outputs of the correction correction block, the modulator, the input of which is connected to the input of the marking unit and with the generator outputs of the test lines, the second input of the modulator is connected to the output of the encoder, and the outputs of the modulator and the marking unit - with the inputs of the unit maintaining the test line signals, and on the receiving side — a marking pulse selector, a decoder whose outputs are connected to the inputs of a variable delay unit that serves to convert the correction code into a time interval, a demodulator whose input is connected to the output selector of the test lines signals, and the output - with the input a decoder between the output of the selector of the pool marked by it and the input of the variable delay block is switched on a constant delay block, the other inputs of which are connected to the delay setting block, and the count The inputs of the constant delay unit and the perimeter delay unit are connected via a switch to the output of a high stability pulse generator and to the output of a time source, an identification signal generator is inputted on the transmitting side, the input and output of which is connected to the test line signal input unit A switch, a memory block of the delay code, and a selector and decoder block of the identification signals, the input of which is fed to a television signal, are entered on the side, and the outputs are connected to one of the switch inputs ora, to the other inputs of which the code memory delay block outputs are connected, the switch outputs are connected to inputs of the delay setting unit. Fig. 1 is a structural electrical circuit diagram of the transmitting part of the device; in fig. 2 structured electrical circuit of the receiving part of the device. The proposed device contains on the transmission side a source of time signals 1, a correction determination unit 2, a marking unit 3, a generator of 4 test line signals, a unit 5 for inputting test line signals and identification signals, a modulator 6, an encoder 7, an identification signal generator 8, and receiving side - (fig. 2) selector 9 signals of test lines selector 10 marking signal, demodulator 11, block 12 constant delay, block 13 variable delay, block 14 setting delay, generator 15 pulses high

stability, a decoder 16, a switch 17, a selector and a decoder 18 of the identification signals, a switch 19, a delay code memory block 20 and a time signal source (not shown in Fig. 2).

The input and output of the identification signal generator 8 are connected to the test line signal input unit 5, and a selector unit and identification signal generator 18 are inputted at the receiving side, the input of which is supplied with a television signal, and the outputs are connected to one of the inputs of the switch 19 and the other inputs are connected the outputs of the memory block 20 of the delay code, while the outputs of the switch 19 are connected to the inputs of the delay setting block 14. A device for transmitting time signals over a television broadcast channel works as follows, C From the time signal 1, the signals of the transmitted time scale with a period T and a duration equal to the period following the test line signals are sent to start the correction correction unit 2, performed, for example, as a digital time interval meter, and to the marking unit 3, which is also served one of the components of the test signals of the test lines, for example, a reference signal for measuring the amplitude-frequency characteristic, which is a pulse with two reference levels. This signal is generated in the generator 4 of the test string signals during the transmission of this test string. The generator 4 is started by pulses generated by the block 5 for inputting the signals of the test lines, to the input of which a full television signal is fed. When the signal coincides with the transmitted time signals, the marking unit 3 provides the modulation of the parameter of one of the components of the control signals of the test lines, for example, switching the signal rate. The signal from the output of the marking unit 3 enters the input unit 5 of the test string signals and is also fed to the second input of the correction determination unit 2. The marking signal stops the correction determination unit 2, which corresponds to the end of the measurement of the interval T ", equal to the delay of the beginning of the marking signal relative to the beginning of the time transferred to the time scale. At the outputs of block 2, a parallel numerical correction code is formed, corresponding to the magnitude of the signals received at the inputs of the encoder 7, which converts information about the duration of the interval t into a serial code necessary to transmit this correction using the control signals of the test lines. The signal from the output of the encoder is fed to the input of the modulator, to the second input of which 4 separate components of the control signals of the test lines are received from the generator 4, used to transmit information about numerical corrections. Each code element from the output of encoder 7 sequentially, with a frame rate, modulates certain parameters of selected components of the pilot signals of the test lines. The signals from the output of the modulator 6, which carry information about the numerical corrections, the signals from the output of the marking unit 3, which are the reference for restoring the time slides, as well as the other components of the test string signals and the identification signals from the outputs of the generators 4 and 8, add up to the full television signal in block 5 and enter the television broadcast channel. At the receiving side, from the received television signals, the selector 9 of the test line signals selects the signals of the test lines delayed relative to the transmitted signals by i; p is the propagation time in the television broadcast channel, and the dedicated signals are fed to the input of the selector 10 of the marking pulse and to the input demodulator 11, extracting a sequentially coded correction signal. The marked signal from the output of the selector 10 is fed to the input of a block of constant delay 12, the delay in which — G growth is set longer than the time required to transmit the correction code, taking into account the aforementioned signal propagation time. The signal from the output of the constant delay unit 12 is fed to the input of the variable delay unit 13, the initial state of which is determined by the decoded signals of the numeric n ::; edits coming from the decoder 16. Setting the delay in the constant delay unit 12 This is accomplished by transmitting the delay code corresponding to the propagation delay signal from the place where the time signals were input, the identification and test lines to the receiving side from the memory block 20 of the delay code via the commutator 19 and the delay setting block 14 to the constant block delays 12. The selection of the delay code 20 from the memory block is carried out by selection and deshipping in block 18 and subsequent transfer through the switch 19 of the delay code of that memory register of block 20, which corresponds to the code of the identification signals. When switching commutations in the television broadcasting network from memory unit 20 through the switch 19 to delay setting unit 14, a delay code is transmitted, which ensures that the time signals at the output of variable delay unit 13 are maintained in the event that the transmitting time signals have the same temporal position, those. synchronized. The proposed device allows to achieve a coincidence of time scales at the transmitting and receiving ends, even if there are commutations in the network of television broadcasting, allows you to create a network of unattended points of transmission of high-precision time signals for various systems using these signals. Formula user Device for transmitting time signals over a television broadcast channel auth.St. Js 40311O, characterized in that, in order to increase the accuracy of time signal transmission, an identification signal generator is inputted on the transmitting side, the input and output of which are connected to the test line signal input block, and the commutator input block on the receiving side and a selector unit and a decoder of the open signals, to the input of which a television signal is supplied, and the outputs are connected to one of the inputs of the switch, to the other inputs of which are connected the outputs of the memory block of the delay code, while the switch outputs are connected to inputs of the delay setting unit. Sources of information taken into account in the examination: 1. USSR Copyright Certificate № 403110, M. Kl. H O4 N 7/00, 1971 (prototype).

From the source teledizionnyyu, signalob