SU968890A1 - Single pulse generator - Google Patents

Description

(54) SINGLE PULSE GENERATOR

The invention relates to computing and can be used in debugging and operating computers on high-speed Joseph; UN tunnel cryotrons. The known effect of the occurrence of non-jitcciBHbix relaxation oscillations under certain conditions in a circuit with a junction} junction tunnel junction 1. The disadvantages of the circuit are uncontrollable 1-generation of voltage pulses and the impossibility of obtaining a single short voltage pulse. The closest to the invention in its technical essence is a single pulse generator containing two galvanically interconnected circuits connected to a DC source, an output bus connected to a DC source and containing a Josephson tunnel junction, and a control bus 2. The disadvantages of the known device are: the presence of two circuits containing two Josephson tunnel junctions, four damping resistors and superconducting shells connecting these elements hostility; increased dissipation of power allocated to the resistors of the circuit, and increased in connection with this flow of liquid gels; limiting the speed of the circuit due to the large inductance determined by the large dimensions of the dual circuit. The purpose of the invention is to simplify, increase efficiency, reduce overall dimensions and increase the speed of the device. This pell is achieved by the fact that a single pulse generator containing a circuit connected to a DC source and consisting of the first Josephson tunnel junction, a resistor and inductance, an output bus containing a second Josephson tunnel junction and connected to the DC junction. to a second bus with two sections and a concentrated inductance, the control bus is switched on with its first section in accordance with the part of the circuit containing the first Josephson tunnel junction, and the second section - Of course, with a part of the contour, passing through the 5th Josephson tunnel junction. FIG. 1 shows a circuit diagram of a single pulse generator; in fig. 2 - in; belt work diagrams. . .

Claims (3)

The device comprises a first voltage tunnel. Josephson junction 1, second Josephson tunnel 2, part of circuit 3 passing next to the second Josephson tunnel junction 2, first section 4, inductance 5, concentrated inductance 6, output bus 7, second section 8 of control bus 9 and resistor 1O. Circuit. The single pulse generator consists of a first Josephson tunnel junction 1, a resistor 10, and an inductance 5, which is a superconducting connection. The control bus 9 consists of a short circuit of the first section 4, which has a consonant direction with a part of the contour containing the first tunnel junction — Josephson 1, and the second section 8, which has an opposite direction with the part of the contour passing next to the second Josephson tunnel junction 2. Both sections combined concentrated inductance 6. Single pulse generator works as follows. After turning on the supply currents L and D in the established mode, all the current D will flow along the low-inductive contour branch through the first Josephson junction 1, and the current L through the second Josephson junction 2. If then, at time t, the unit function J. (i) is applied to the control bus 9 as a current differential, then under the action of its magnetic field the first Josephson tunnel junction 1 switches to the resistive state and the current J will flow along part of the circuit 3. Now, under the action of the magnetic field C, the second Jozefson 2 tunnel junction is turned on to the state with voltage, and the front of the output voltage of the output voltage is at the output of the device. After time C, determined by the magnitude of the inductance 6 of the control bus 9, the current front EPR will reach the second section 8. So 1, next to the second Josephson tunnel junction 2, the 3 r current will flow in the direction opposite to the current t - their magnetic fields compensate each other and the second Josephson 2 tunnel junction will return to the superconducting state (the state with the voltage Bbix O) thus forming the rear edge of the output pulse. The duration of the output voltage pulse in this case is equal to f a limit value of the superconducting intsuktyvnosti 6 upravbni bus 9 thus simplified printsnpial on electrical oscillator circuit, so ,; how the double circuit is replaced with a single circuit; the overall size of the circuit is reduced, which contributes to an increase in the integral density of the micro circuit layout; the efficiency of the circuit operation increases, since the power is reduced, which is now dissipated by only one resistor; the performance of the circuit increases as the switching delay of the second Josephson junction is reduced, defined by the expression 3 US / R-JQ, where L5 and R10 are the inductance and the resistance of the circuit. Claims of the Invention A single pulse generator comprising a circuit connected to a DC source and consisting of a first Josephson tunnel junction, a resistor and inductance, an output bus containing a second Josephson tunnel junction and connected to a DC source, and a control bus with two plots and focused injectivity, characterized in that, in order to simplify, reduce overall dimensions, increase efficiency and speed, the tire control is included in its first segment com agrees with the part of the contour containing the first Josephson tunnel junction, 59688906 and the second section - counter c1. Solimar L. Tunnel effect in part of the circuit passing near co, superconductors and its application, M., Joaef-Mir second tunnel junction, 1974, p. Y56-357. sound..a.M.Kgein. Fast PuSse circuit Sources of information, cPosore BueEet n, voB. 1b, 1a1g ,, Bp taken into consideration by examiner.240b. tynp li5Us4nQf Joseplisoa, 3BM TechnicaE Tis-I Iifnp Ul t, ti Fi & .1