SU1495906A1 - Device for powering digital automatic equipment systems - Google Patents

Abstract

The invention relates to electrical engineering and can be used for short-term power backup of digital automatics systems and setting them to their initial state when turned on. The purpose of the invention is to expand the functionality of the device. The device provides short-term power backup due to the energy of the pre-charged capacitor. New in the device is that this capacitor is used as an element of the time of the master circuit in the formation of pulse signals for the partial and complete installation of the elements of digital automatics in the event of a power failure and on. 1 il.

Description

The invention relates to electrical engineering and can be used for short-term power backup of digital automation systems and resetting them to their initial state when turned on.

The purpose of the invention is to expand the functionality of the device by introducing partial and full reset of digital automatics depending on the duration of the power failure period.

The drawing shows a circuit diagram of the device.

The device for powering digital automation systems contains two buses 1 and 2 of the power supply, one of which is common, capacitor 3, first 4 and second 5 transistors, first 6,

second 7 and third 8 semiconductor valves, first 9 and second 10 zener diodes, first 11, second 12, third 13, quarter 14, fifth 5, sixth

16 and seventh 17 resistors, the first 18, the second 19 and the third 20 output device bus. First stabilitron

9 with series-connected fourth 14 and fifth 15 resistors is the first threshold element 21, the second zener diode 10 with series-connected sixth 16 and seventh

17 resistors - the second threshold:; element 22.

The device works in the same way.

When the power is turned on, the voltage rises from zero to nominal, which is transmitted through the first valve 6

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with about

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to the first output bus 18 of the device. The load on the device of digital automation systems (not shown) is carried out by connecting them to the first output bus 18 and the common bus 2 of the power source. On the circuit, the first resistor 11 - the third valve 8, the capacitor 3 is charged to the nominal voltage of the power source. The voltage of the capacitor 3 can flow through the second valve 7 to the first output bus 18 of the device. Thus, due to the energy stored in the capacitor 3, the load is supplied with a short-term loss of the supply voltage of the source. The duration T of the time interval during which the normal operation is guaranteed

Digital automatics booths, determined by the time of voltage reduction on capacitor 3 to the level of the minimum allowable voltage.

If there is a voltage on bus 1 and on capacitor 3 with the nominal source voltage level

: power supply Zener diodes 9 and 10 pierced transistors 4 and 5 are open, at the second 19 and third 20 output buses of the device voltage is set to low potential (log

О c) When a short-time voltage decreases on PMne 1 to a level below the stabilization voltage of Zener diode 9, capacitor 3 does not have time to discharge, current flow through Zener diode 9 stops, transistor 4. closes and a positive potential is formed on the second output bus 19 of the device, which is applied partial reset signal for digital automation elements.

With this signal, only certain elements of digital automation are reset.

If during a time shorter than T the voltage on bus 1 rises to nominal, the partial reset signal is removed from the output bus 19 (the level of logic 1 changes

ABOUT). Over the weekend

one

in this case does not occur. If the deviation of the voltage of the power source occurs for a time longer than T, then at the time of its repetition the current through the Zener diode is 10

logical level

sc 20 level logic signal

. 0

five

0

0

five

g

0

five

flows, since the capacitor 3 is discharged to a lower voltage of stabilization voltage, the transistor 5 is closed. On the output bus 20, a signal is generated with a logic level of 1, which sets the elements of digital automation to a certain initial state. As the capacitor 3 charges to stabilization voltage and higher, Zener diode 10 punches, transistor 5 de-energizes, and a low-level signal (logical O) is set at its collector output 20.

The quarter 14 and sixth 16 resistors serve to limit the current through Zener diodes 9 and 10 during the breakdown,

In the device, along with the formation of the digital automatics setup signal, when the power is turned on, the power source is reserved during a short-term power failure, thereby expanding the functional capabilities of the device.

Claims (1)

Invention Formula A device for powering digital automation systems containing three semiconductor valves and a capacitor, the output electrode of the first valve is connected to the first output bus, the input to the DC power supply bus, the second and third valves are connected in series and one of the plates is connected to their common point a capacitor, the second lining of which is connected to a common power supply and load bus, characterized in that it is equipped with first, second and third resistors in order to expand rational possibilities , second and third output buses, two transistors and two threshold elements, each including a series-connected Zener diode and two resistors, the first element is connected between the power supply, and the second parallel to the capacitor plates, and the terminals of the threshold elements are connected to the common bus from the side of the resistors, the output electrode of the second valve is connected to the first pin, and the input electrode of the third valve The Pigtani source bus is connected through the first resistor, the transistor emitters are connected to the common bus, the collector of the first transistor is connected to the second output bus and through the second resistor is connected to the first output by one bus, the collector of the second transistor is connected to the third output bus and through the third the resistor is connected to the power supply bus; the bases of the first and second transistors are connected to common points of the resistors of the first and second threshold elements, respectively.