SU575759A1 - Bistable amplitude dynamic flip-flop - Google Patents

Description

The trigger contains a video pulse generator 1, a relaxation auto-generator 2, a constant voltage source 3, a feedback amplifier 4, a coupling element 5, an oscillating circuit 6, a radio pulse source 7, a load 8.

The relaxation oscillator 2 is connected through the coupling element 5 to the oscillatory circuit b; feedback with the oscillating circuit through the feedback amplifier 4 is fed into the relaxation generator, a load 8 is connected to the oscillating circuit, and an external signal from the radio pulse source 7 is input to trigger the trigger. Video pulses from the generator of 1 video pulses are supplied to the relaxation autogenerator for clocking. The relaxer oscillator is powered by a constant voltage source.

The relaxation generator operates in the E mode of self-oscillations with a frequency fg that is higher than the natural frequency of the oscillatory circuit f | . In the oscillatory circuit, due to shock excitation, natural oscillations arise with a frequency f, which are fed through a feedback circuit and an amplifier to a relaxation generator, where they are summed with the supply voltage. With a sufficient transmission coefficient in the feedback circuit and the correspondence of the partial frequencies of the active and passive parts of the circuit, the total voltage in the relaxation autogenerator decreases (or increases) to such a threshold that the autogenerator goes for some time f into standby mode and the next pulse forms is delayed until the value of such a voltage is not greater (or less) than the threshold voltage.

The pulse frequency of the relaxation of the auto-generator varies abruptly and becomes approximately equal to the frequency of the oscillatory circuit, and their shape is modulated by the feedback voltage. In the auto-synchronization mode, the amplitude of oscillations in the oscillating circuit, and, consequently, in the load can increase by 25-30 dB compared to the mode without synchronization, which makes it possible to amplify the external trigger radio pulses.

The relaxation generator operates as in synchronization mode, when the pulse frequency fg is equal to

approximately the frequency of the oscillating circuit fjwfK

so in the division mode,

fK when fi g where / u-2, 3.. . When the generator power supply voltage decreases (or increases), the auto-synchronization mode remains within certain voltage limits, as long as the total voltage on the non-linear element of the oscillator is less (or more) than the threshold value. Depending on the type of current-voltage characteristic of the nonlinear element used in the oscillator; e pulses, and its mode of operation, it is possible to obtain several bistable zones.

The transfer of the gripper, the operating point of which is located inside the bistable zone, can be accomplished by applying both a clock video pulse along the power supply circuit of the relaxation self-oscillator or a radio pulse along the feedback circuit, as well as simultaneous action of the video pulse and radio pulse. Trigger triggering occurs if the total voltage becomes less (or more) than the threshold. The self-oscillation is disrupted by a clock pulse at the moment when the operating point goes beyond the boundary of the stable zone.

Claims (2)

1. Author's certificate of the USSR No. 149268. H 03 K 3/29, 1962. 2.Sigorsky V.P. and others. Multistable elements of discrete technology. ML, Energie, 1966, p. 34-36.