SU528700A1 - Voltage Monitoring Device - Google Patents

Description

one

The invention relates to radio engineering and can be used in analog control systems.

A device for controlling voltages is known, comprising a two-input comparison element, to the output of which an integrator is connected, a processing element and a second two-input comparison element, the input of which is connected to one of the inputs of the first comparison element, and the second integrator connected to the output reference voltage 1.

Such a device has a relatively low reliability.

The purpose of the invention is to increase the reliability of the device.

To do this, a threshold and differential elements are inserted in the proposed device, connected in series between the output of the first integrator and the input of the processing element, the output of the second integrator is connected to the common input of both elements of the comparison. One of the inputs of the first two-input comparison element is connected to a monitored voltage source, and one of the inputs of the second comparison element is connected to a reference voltage source.

The drawing shows a structural electrical circuit of the device.

The device for voltage control contains a two-input element of comparison 1, the output of which is connected to the integrator 2, the processing element 3 and the two-input element

Comparison 4, whose input is connected to one of the inputs of Comparison Element 1, and an integrator 5 is connected to the output of Comparison Element 4. A source of monitored voltage (not shown) is connected to terminal 6, and a source of reference voltage (not shown) is connected to terminal 7 .

The threshold element 8 and the differential element 9 are connected in series between the output of the integrator 2 and the input of the processing element 3. The output of the integrator 5 is connected to the common input of the comparison elements 1 and 4. One of the inputs of the two-input comparison element 1 is connected to the terminal 6 of the monitored voltage source, and one from the inputs of the two-input element of comparison 4 and connected to the terminal 7 of the source of the voltage.

The output of the processing element 3 is connected to the output terminal 10.

The device works as follows.

Assuming that the monitored voltage is positive and normalized by level, the reference voltage is also positive and equal to

normalized.

At the first moment after the input voltages are applied to terminals 6 and 7, the output voltage of the integrator 5 is less than the input voltages. At the outputs of elements of Equation 1 and 4, a Vits signal, under the action of which, at the outputs of the integrators 2 and 5, the positive voltages are increasing in TC. After the voltage at the output of the integrator 2 reaches the threshold of the threshold element 8, the first signal 8 will come from its output through the differential element 9, and the first signal will go to the processing element 3 from its output through the differential element 9.

If the output voltage of the integrator 5 exceeds the reference voltage at the output of the reference element 4, the integrator control signal 5 will disappear, as a result of which the output voltage of the integrator 5 will begin to decrease. At the moment when it becomes less than the reference, at the output of the element of comparison 4 the control signal again appears, and the output voltage of the integrator 5 begins to increase. The process then proceeds likewise.

In the case when the controlled voltage is greater than the upper tolerance limit, the state of the two-input element of comparison 1, inIerpaiopa 2, threshold element 8, differential element 9 and processing element 3 does not change, because pi; 1a voltage of integrator 5 does not reach the level reference voltage, processing element 3 will fix code 01.

When the output voltage of the integrator 5 exceeds the reference voltage at the output of the reference element 1, the control signal of the integrator 2 disappears and the output voltage of the integrator 2 begins to decrease. After it becomes less than a certain threshold, the threshold element 8 switches and produces zero, and the differential element 9 gives the next signal to the processing element 3.

In the case that the controlled voltage is normal, the state of the two-input element of comparison 1 of integrator 2, threshold element 8, differential element 9 and processing element 3 will change.

At the moment when the decreasing output voltage of the integrator 5 crosses the level of the monitored voltage, the output of the reference element 1 again shows a control signal, the node whose action causes the output voltage of the integrator 2 to increase, and when the threshold is reached, the threshold element 8 produces a unit, and the differential element 9 is the next signal to the processing element 3, which will fix the following code, and will also issue

signal that a controlled voltage is in the tolerance field.

Claims (1)

1. V.A. Dolgov. Built-in automated control systems, publishing house Energiya, 1967, p. 36, fig. 18 (prototype).