SU898622A1 - Counter-register of voltage loss - Google Patents

Description

The invention relates to a pulse technique and can be used to record the facts of power failure during the development and testing of automation devices.

A known pulse counter containing a light source, a photocell and an electromechanical recording device [1].

The disadvantage of this device is the impossibility of registering a power failure.

Also known is a counter containing a pulse amplifier, an electromechanical pulse counter, ‘time relay and photo resistance [2].

The disadvantage of this device is the hardware complexity of monitoring the power failure.

The purpose of the invention is to simplify the control of power failure.

This goal is achieved by the fact that in the counter-recorder of voltage drop, voltage containing the amplifier, the output of which is connected to the first input of the electromechanical counter, the first and second capacitors, a divider on resistors, which is connected in parallel with the first capacitor, the first and second diodes, the first lining of the second capacitor is connected to the common bus, and the second to the second input of the electromechanical counter and through the first diode to the midpoint of the divider by the resistor ^, the amplifier input through the second The iodine is connected to the first lining of the first capacitor, which is connected through the diode to the power bus, and the second lining of the first capacitor is connected to the common bus.

The drawing shows a schematic diagram of a device.

The counter-recorder of the voltage drop contains an amplifier on transistors 1 and 2, the output of which is connected to the first input of the electromechanical counter 3, additionally introduced capacitors 4 and 5, a divider on resistors 6 and 7, which is connected in parallel with capacitor 4, diodes 8 and 9, the first lining the capacitor 5 is connected to a common bus 10, and the second to the second input of the electromechanical counter 3 and a series of diode 8 with the midpoint of the divider on the resistors 6 and 7, the input of the amplifier through the diode 9 is connected to the first lining of the capacitor 4, which through iodine 11 is connected to the power bus 12, and the second lining of the capacitor 4 is connected to a common bus 1 0.

The counter works as follows.

If there is voltage on the bus 12, the capacitor 4 charges through the diode 11 and the capacitor 5 through the diode 8, the resistor 6, diode 11. The capacitor 4 is charged to the voltage of the power source, and the capacitor 5 to the voltage determined by the division factor by the divider on the resistors 6 and 7 · Diode 9 is locked by the voltage difference between the plates of capacitors 4 and 5 and there is no current at the output of the amplifier. Electromechanical meter 3 is de-energized. When the voltage disappears on the bus 12 of the power source, the capacitor 4 begins to discharge through the divider on the resistors 6 and 7. When the voltage on the capacitor '4 becomes less than the voltage on the capacitor 5, the discharge current of the capacitor 5 flows through the input of the amplifier and diode 9. This current is amplified by the amplifier and flows through an electromechanical counter 3, which is triggered and remembers the unit of perturbation. After a while, the capacitors 4 and 5 are completely discharged and the meter is de-energized. When the voltage reappears, the capacitors again begin to charge. Capacitors 4 and 5 when closed

898622 4 amplifier. At the next loss, the next unit is recorded in the electromechanical counter 3 and so on.

The voltage can disappear either ₅ instantly or slowly, in any case, it is written - a unit in the counter.

. In case of interference in the voltage, i.e. pulses with a short duration, the counter will not register the loss of voltage due to the fact that the capacitor 4 does not have time for a short duration to be discharged to the voltage of the capacitor 5.

Claims (2)

connected to the first input of an electromechanical counter 3, additionally introduced capacitors t and 5, a divider on resistors 6 and 7, which are connected in parallel to capacitor k, diodes 8 and 9, the first plate of capacitor 5 is connected to common bus 10, and the second to the second input of electromechanical the counter 3 and the turn of the diode 8 QO by the midpoint of the divider on the resistors 6 and 7, the input of the amplifier through diode 9 is connected to the first plate of the capacitor 4, which is connected through diode 11 to the power bus 12, and the second capacitor plate is connected to the common bus 1 O. The counter works as follows. If there is voltage on bus 12, capacitor k is charged through diode 11 and capacitor 5 through diode 8, resistor 6, diode 11. Capacitor k is charged to the voltage of the power source, and condensate 5 to the voltage divided by a divider factor on resistors 6 and 7. Diode 9 is blocked by the voltage difference between the capacitor plates and 5 and at the output of the amplifier there is no current. Electromechanical counter 3 is de-energized. When the voltage on the power supply bus 12 disappears, the capacitor starts to discharge through a divider on resistors 6 and 7. When the voltage on capacitor 4 becomes less than the voltage on capacitor 5, the capacitor 5 discharge current flows through the input of the amplifier and diode 9 amplified by an amplifier and flows through an electromechanical counter 3, which is triggered and remembers the unit of disturbance. After some time, capacitors 4 and 5 are completely discharged and the meter is depleted. When voltage reappears, the capacitors 4 and 5 start charging again when the amplifier is closed. At the next disappearance, the next unit is recorded in the electromechanical counter 3 and. The voltage can disappear both instantly and slowly, in any case, the unit is recorded in the meter. In the event of a voltage in the voltage, i.e. short duration pulses, the meter will not register the loss of voltage due to the fact that the capacitor 4 does not have time for a short duration of discharge before the voltage of the capacitor 5. The invention The counter-recorder of the voltage drop, containing an amplifier, the output of which is connected to the first input an electromechanical counter, which is distinguished by the fact that, in order to simplify the monitoring of the power supply voltage drop for a period longer than a certain predetermined value, the first and second terminals are additionally introduced into it Sensors, a divider on the resistors, which is connected in parallel to the first capacitor, the first and second diodes, the first plate of the second capacitor is connected to the common bus, and the second to the second input of the electromechanical counter and through the first diode to the middle point of the divider on the resistors, the amplifier input through the second the diode is connected to the first plate of the first capacitor, which is connected via a diode to the power bus, and the second plate of the first capacitor is connected to the common bus. Sources of information taken into account during the examination 1. USSR author's certificate No. 169905, cl. G About M 11/00, 196it. 2. USSR author's certificate number 158167, cl. G 06 M 3/02, 1962.