SU1056064A1 - Pulsing voltage minimum value pickup - Google Patents

Abstract

THE PULSE VOLTAGE MINIMUM VALUE SENSOR, containing: a diode-capacitor storage cell, the diode of which with one electrode connected to the input terminal of the sensor, and the other electrode connected to one output of the cell capacitor and the output terminal of the sensor, from which it is connected and connected; In order to increase speed, I additionally introduced a second diode-capacitor cell, one electrode of the diode of the second cell is connected to the input terminal of the sensor, the other electrode is simultaneously connected to the free terminal of the sensor NSA-: the torus of the first cell and with one output of the capacitor of the second cell, the second terminal of which is connected to the S common bus, and the diodes of the cells are connected to the common terminal of the sensor with different polarity electrodes.

Description

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. The invention relates to electrical measurement technology and can be used, for example, in devices for measuring and converting pulsating voltages, in particular in combined power sources, as a device generating a feedback signal for controlling a pulsed stabilizer or a stabilized rectifier. A minimum voltage sensor is known that contains two peak detectors, respectively, with closed and open inputs connected to the sensor input, the output of one of the detectors is connected to one of the sensor output terminals directly, and the output of the other detector is connected to another sensor output terminal through the inverting node 1J, the disadvantage of the sensor lies in its complexity. A minimum pulsed voltage sensor is also known, which contains a diode-capacitor memory memory and a voltage source, one output of which is connected to the input terminal of the sensor, another output through the cell diode connected to the output terminal of the sensor and one output of the capacitor cell, another output which is connected to the common bus, the cell diode being connected in the conductive direction with respect to the voltage of the reference voltage source C2. The disadvantage of the sensor is its complexity due to the presence of a voltage source, for which an additional voltage source is required. In addition, due to the inversely proportional dependence of the input voltage of the sensor on the input, the circuit of the actuator connected to the output of the sensor is complicated. The closest to the invention in terms of technology is a minimum voltage hand pulse sensor containing a diode capacitor storage cell, the diode of which is connected to the sensor input terminal by another electrode and connected to the output sensor terminal and one cell capacitor output The other pin is connected to the common busbar, and the resistor is connected in parallel with the electrodes of the diode of the 3 J cell. The known sensor has a poor response time due to the presence of a resistor in the charging circuit. a capacitor cell needed to produce the minimum value of the pulsating voltage. The aim of the invention is to increase the speed of the sensor. The goal is achieved by the fact that in the sensor the minimum value of the pulsating voltage containing a diode-capacitor storage cell whose diode is connected to the input terminal of the sensor by one electrode and the other electrode connected to one terminal of the cell capacitor and the output terminal of the sensor, the second a diode-capacitor cell, one electrode of the diode of the second cell is connected to the input terminal of the sensor, another one of its electrode is simultaneously connected to the free output of the capacitor of the first cell and to one the second cell terminal of a capacitor whose other terminal is connected to a common bus, wherein the diodes are connected to the cell input terminal Hetero rnshli sensor electrodes. The drawing shows the electrical circuit of the sensor. The sensor contains a first diode-capacitor storage cell. On diode 1 and capacitor 2 and a similar storage cell on diode 3 and capacitor 4. The storage capacitors 2 and 4 cells are connected in series and form a string, the outermost terminals of which are sensor outputs 5. Diodes 1.and 3 are connected to the input terminal 6 of the sensor by one-pole electrodes, and the other different-pole electrodes of diodes 1 and 3 are separately connected to capacitors 2 and. 4 corresponding diode-capacitor cells. The sensor works in the following way. The input terminals b of the sensor are connected to the source of the controlled voltage pulsirun in such a way that, at the polarity of the diodes 1 and 3 shown on the drawing, the rotary clamp 6 of the sensor directly connected to the electrodes of the diodes 1 and 3 is connected to the positive pole of the source of the pulsating voltage wives In this case, capacitor 2 is charged through diode 1 to a maximum value of 1 || 1 pulsation voltage. When the pulsating voltage drops to the minimum value, capacitor 2 remembers the voltage, and capacitor 4 is charged to a voltage equal to H alce-Wm. Thus, at this moment in time, the output voltage of the sensor, equal to the voltage difference across the capacitors 2 and 4, is equal to. When the ripple voltage increases from u, to and and the output voltage of the sensor does not change, since diodes 1 and 3 are closed and capacitors 2 and 4 retain their charge. Thus, in steady state operation, the output voltage of the sensor equals U.

With a short rapid decrease in the voltage value at the sensor input, the voltage on the capacitor 2 remains unchanged, and the capacitor 4 through the diode 3 is quickly recharged to a new voltage value equal to the new magnitude. The output voltage of the sensor quickly takes on a new value. Thus, the proposed sensor has a low inertia with respect to a decrease in the input voltage. Introduction | A second diode capacitor cell eliminates the need for an There is no additional resistor in the charge circuit of capacitor 4, which improves the sensor performance with increasing input voltage.

The use of the proposed sensor in combined power sources as a device for generating a reverse signal

Coupling a pre-pulse stabilizer or a stabilized rectifier allows, due to the increased speed of the sensor, to increase the reliability of the stabilizing power sources.

Claims (1)

PULSING VOLTAGE MINIMUM SENSOR, comprising: a diode-capacitor storage cell, a diode of which is connected by one electrode to the input terminal of the sensor, and the other electrode is connected to one terminal of the cell capacitor and the output terminal of the sensor, which is isolated from by that. that, in order to improve performance, a second diode-capacitor cell is additionally introduced into it, one electrode of the diode of the second cell is connected to the input terminal of the sensor, and its other electrode is simultaneously connected to the free output of the condensate-. torus of the first cell and with one output of the capacitor of the second cell, the second output of which is connected to a common bus, and the diodes of the cells are connected to the output terminal of the sensor by multipolar electrodes.