SU589688A1 - Device for synchronous recognition and regeneration of pulse-code-modulated signals - Google Patents

Description

AND (54) A DEVICE FOR SYNCHRONOUS IDENTIFICATION OF CODES-PULSE-MODULATED CODES AND PULSE SIGNALS It is a common bus source power supply, and the base is connected via a capacitor 12 to terminals 13 of the power supply terminal and through a resistor 14 to the positive terminal of the power supply, to the terminals 13 to the positive terminal of the power supply, to the terminals 13 to the positive terminal of the power supply, to the output terminals 15, to the terminals 13 to the positive terminal of the power supply, to the terminals 13 and to the positive terminal of the power source, output terminals 15, to the output terminals, the output terminals, 21 bases of transistors 8 and 9. The device operates as follows. Terminally enhanced and optimally adjusted binary CMM signals, respectively, are supplied to terminals 6 and 7, respectively. (Fig. 2), and to terminal 13 there is a synchronization signal T (cm) in the form of a meander with a needle length equal to half the transfer period of the info | p; iation. With a negative drop in the synchronization signal, the rammer 11 is locked, and if it is positive, it short circuits the trigger to transfer it to the neutral state | because the transistor 8 and 9, the current can not pass through. At the output terminals 1 and 16 there will be almost the same potential, since the collector currents C and i of transistors 1 and 2 are small compared to the currents flowing through the transistors 8 and bless the corresponding choice of resistors 3 and 10, Prt not signal from terminal 13 from plus to minus, at times t {j, 2. Ts, etc. transistor 11 is closed. In this case, the trigger enters the state determined by the output signals of the pyffertial amplifier. If, for example, under the action of the CMM signals Ej and E, the transistor 1 is locked and the transistor 2 is open, the trigger is in the state in which the transistor 8 is open and the transistor 9 is closed and vice versa. In this case, at terminals 15 and 16 of the Tc signals A, vCM, FIG. 2), I compose a corresponding trigger. In this way,; Alate readability, the CIM sys- tem is able thanks to the fact that the efficiency of the transition of the trigger from the neu- al to stable, what is the duration of the transition from the steady state to the other, i.e. The transfer of information ends before the final transition of the trigger to the stable state. The formula was invented by the Device for synchronous recognition and regeneration of code-pulse-modulated (CIM) signals, which include: It is a functional amplifier and a trigger that, in order to shorten the time of recognition of an icture, an additional transist has been introduced into it, the collector of which is connected to the positive pole of the power source, the base to the connection point of the resistor and one of the capacitor plates, the other of which is connected to the terminal of the synchronization signal, the emitter of the additional transistor Inonii trigger transistors with emitters, the collector of the first transistor of the differential amplifier is connected to the collector of the second transistor and a base of the first flip-flop tranzis1yura having its collector connected to the collector of transistor vtorsh differential amplifier connected to the base of the second transistor of the trigger. Sources of information taken into account in the examination: 1. US patent number ZO5491O, cl. 397-88.5, 18.O9.62.

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