CS242785B1 - Connection of an anti-cell protection in the dc power supply - Google Patents

Abstract

The solution concerns the anti-cell wiring protection in a DC voltage source choke, diode, counterpart, thyristor, contactor, power capacitor and commutation circuit. The essence of engagement is that the wiring input is connected via a choke to the first contactor outlet and to the diode anode, whose cathode is connected to the commutation input circuit and with the thyristor anode to which it is the cathode is connected to the output wiring and, on the other hand, through the power capacitor, ground potential, the thyristor being bridged a counterpart connected in parallel and the other the contactor outlet is connected to the thyristor cathode.

Description

The invention relates to the connection of an anti-cell protection in a DC power supply comprising a choke, a diode, an anti-cell, a thyristor, a contactor, a power capacitor and a commutation circuit.

To date, overvoltage protections are known which switch off the power supply when overvoltage occurs or when the voltage on the load exceeds a specified value. This interrupts the operation of the powered device, such as a telephone exchange, or the battery must take over the power supply.

In addition, there are known sources, on the output of which are classified in series with load counter-cells. The contactors are connected by opening the contactor contacts.

The main disadvantage of these known circuits is that in both cases their response to overvoltage is slow and insufficient to protect the device safely in case of overvoltage, for example in the event of a sudden change in line voltage, a change in load impedance or control unit failure. resources.

This disadvantage is eliminated by the circuit according to the invention, which is characterized in that the circuit input is connected via a choke to the first contactor terminal and to the anode of the diode, the cathode of which is connected to the commutating circuit input and thyristor anode. on the one hand, via a power capacitor, ground potential, the thyristor being bridged by a parallel connected counterpart and the other contactor terminal being connected to the thyristor cathode.

The main advantage of the circuit according to the invention is that at least one anti-cell protection is incorporated in series with the DC voltage source and the load, which immediately assumes a part of the source voltage when the overvoltage occurs. Since this protection is contactless, it is fast enough to protect the electronic device.

In the following, the invention is explained in more detail, in conjunction with the accompanying drawing, by way of example.

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In the accompanying drawing, an exemplary circuit according to the invention is schematically illustrated.

As apparent from the drawing, the input is connected across the inductor 2 is connected ^{to a} first terminal of the contactor 5 and the second diode anode, cathode iody £ 2 is connected to the input of the commutation circuit and T_ thyristor anode to the cathode 2 · 2 j ^e thyristors connected both to the output connections, and secondly , via the power capacitor 2, ground potential. The thyristor 2 is bridged by a parallel connected counterpart 3 and the second terminal of the contactor 5 is connected to the cathode of the thyristors 2. The commutation circuit 1 is formed by a capacitor 2 in series connected by its anode trip thyristor 11, the cathode being connected to earth potential. capacitor 2 ^e j 2 bridged by a resistor ^{and in} series thereto connected discharge thyristor 22 'whose cathode is connected to the anode of SCR 11. for tripping the circuit function has no effect when the commutation circuit input j connected to the anode of the diode 2 and the output of the commutation circuit T_ to the cathode of thyristors 2 · Counterpart 2 consists of a series of semiconductor diodes of either selenium or silicon.

The wiring described works in such a way that in normal operation the thyristor 2 is closed and the contactor contact 2 is opened. Current from choke 2 flows to power capacitors 2 via diode 2 and thyristor 2 · When a load is connected to the power capacitors 2 ^{, the} thyristor 2 is switched off by the commutation circuit 2 »which reduces the voltage at the anode of the thyristors 2 for some time. chokes 2 flow to the power capacitors 2 via diode 2 and counterpart 2 · ^After a voltage drop across the load, the thyristor 2 is switched by pulse and the current flows again through diode 2 and thyristor 2 · Contactor contact 5 only closes during battery operation voltage drop below the specified level.

The commutation circuit 2 turns off the thyristor 2 when it energizes the control electrode with the trip thyristor 11, and the capacitor in the discharged state begins to charge. This creates a voltage in the reverse direction on the thyristors for a certain time, so that the thyristor -4 goes into the blocking state. Once the capacitor j! it charges the current through the choke 1, the trip thyristor 11 closes and goes into the locked state. Only then can the capacitor be discharged via the resistor j) by closing the discharge thyristors 10. After the capacitor is discharged, the discharge thyristor 10 closes and the commutation circuit T is ready for further commutation.

The circuit according to the invention is particularly useful for the construction of anti-cell protection circuits in DC power supplies which supply electronic devices, such as electronic telephone exchanges, or similar devices whose structural elements are susceptible to damage due to short-term overvoltage. In both the positive and negative branches of the source in which it is used, either in the described basic arrangement or by connecting several anti-cell protections in series or cascade.

Claims (1)

OBJECT OF THE INVENTION Wiring of a DC link in a DC power supply consisting of a choke, diode, counter, thyristor, contactor, power capacitor and commutation circuit, characterized in that the wiring input is connected via choke (1) to the first contactor terminal (5) and diode anode (2) the cathode of which is connected to the input of the commutation circuit (7) and to the anode of the thyristors (4), to whose cathode the wiring output is connected and, via the supply capacitor (6), the ground potential, the thyristor (4) being bridged the second contactor terminal (5) is connected to the cathode of the thyristors (4).