SU869010A1 - Threshold regenerative device - Google Patents

Description

(54) THRESHOLD REGENERATIVE DEVICE

The invention relates to a pulse technique and can be used in sensitive threshold regenerative devices. A well known threshold regenerative device containing an amplifying element, a positive feedback circuit consisting of a switching element and series-connected communication element, a bias source and a source of control voltage l. The disadvantage of such a device is its low sensitivity due to the pulsations of random parasitic fluctuations, which cause malfunctions in the operation of the device, if necessary, high feelings of x-el carry. The purpose of the invention is to increase sensitivity while maintaining reliable operation of the device. The goal is achieved by the fact that the threshold regenerative device, the supporting amplifying element, the half-polo feedback circuit, the state of the switching element and the series-connected communication element, the bias source and the control voltage source, are inserted between the element output and the input of the switching element of the positive feedback circuit; One of the outputs of the integrating element is connected to the output of the amplifying element, the other output of which is connected to the input of the communication element. The drawing shows a diagram of the threshold regenerative device. The device comprises an amplifying element 1 with an open input, a positive feedback circuit 2 (CEP), which contains the sources 3 and 4 of the control voltage and the bias voltage, respectively, the communication element 5, an adjustable integrating element 6, the switching nonlinear element 7, an input 8 for triggering a threshold device; and an output 9 for a device for connecting a consumer of information. An adjustable integrating element 6 is connected between the output of the communication element 5 in the switching non-linear element 7 and also with the output 9 of the device.

Threshold regenerative device hypersensitivity works as follows.

The trigger signal is fed 1H to the input 8 of the threshold device, amplified by the amplifying element 1 with the input open, then through the element 5 svzi, which, depending on the purpose of the threshold device, can serve as a pulse transferator or a two-winding electromagnetic relay, etc. on adjustable integrating - elemeig 6; which can be realized either on the basis of a recirculator on the delay line, as well as on RC elements, or on the basis of a low-frequency filter. Here there is a smoothing of the pulsations of random parasitic fluctuations, for example, caused by the device’s own noise, and the effect of possible

short-term interference in the signal circuit and voltage drops in the power supply circuit due to the optimal value of the DEP. The resulting signal from the output of the adjustable integrating element 6 is fed to the switching nonlinear element 7, for example a diode, through which the DEP is closed in its original state using source voltages; 3 and 4 displacement and control voltage. In the event that the resultant signal at the output of the adjustable integrating element 6 of the voltages of sources 3 and 4 is exceeded, the switching nonlinear element 7 goes into a conducting state and closes the DSP of the device. The regenerative process and takes place in the threshold device. at its output 9, a necessary impulse is generated for the consumer of information, which also returns to the initial state by resetting the controllable integrating element.

Thus, with the help of Efostky design and construction scheme, the sensitivity of the porsy regenerative device to pulsed triggering signals is significantly increased, its susceptibility level and stability are increased. It becomes possible to control over a wide range the sensitivity ps of the south regenerative device not only to the intensity value of the pulse signal, but also to its intensity, as well as (at optimal filtering) the pulse frequency and the number of pulses in the packet, which expands the scope of the pfog regenerative device and eliminates the need to develop a number of more complex threshold devices, the sensitivity ranges of which to the intensity, duration, frequency of the signal and the number of pulses ss in a pack are close to the corresponding ranges for the proposed threshold regenerative device.

Claims (1)

1. Copyright certificate of the USSR No. 488323, cl. N OZ K Z / ZO, 1975.