CS225750B1 - The connection of dc limiter - Google Patents

Description

The invention relates to a DC current limiter operating automatically.

In practice, it is often required that the electric current of a DC voltage source does not exceed a certain upper value. This requirement can be met by permanently placing resistance in the load series. However, this results in permanent losses and reduced dynamics of the powered circuits.

These disadvantages are overcome by the DC current limiter of the present invention, which is connected to an input terminal of one polarity of a DC voltage source with one sensing resistor terminal connected via a limiting resistor to an output terminal of the same polarity of the DC voltage source parallel to the sensing sensing inputs of hysteresis transducer connected to the resistance of the resistor, whose excitation output is connected, possibly via an amplifier, on a transistor basis, the input terminal of the second polarity of the DC voltage source is connected to the output terminal of the same polarity a collector is connected to the output of the limiting resistor and the emitter of the transistor is connected to the other terminal, whereby a base resistor is optionally connected between the emitter and the base of the transistor.

The advantage of connecting the DC current limiter according to the invention is its simplicity, the possibility of connection to both the positive and negative branches of the DC voltage source. The limiting resistor is only connected in series with the load when the maximum current value is exceeded and is automatically activated. overrides the limiter circuit hysteresis after the current drop.

225 750

Examples of connections of the DC current limiter according to the invention are shown schematically in FIGS. 1 to 4 of the accompanying drawing.

The emitter of the pnp transistor T is connected via a small sensing resistor S to the positive voltage input terminal J for connection to the positive voltage terminal of a non-illustrated DC voltage source (FIG. 1). The collector of transistor T is connected to the positive voltage output terminal 01, to connect a load (not shown).

A limiting resistor R2 is connected between the emitter and the collector of transistor T. A base resistor R3 is connected between the emitter and the base of transistor T. Parallel to the sensing resistor R1, the sensing inputs J and 4 of the hysteresis sensor S are connected, whose excitation output 03 is connected on the basis of transistor T. The negative voltage input terminal pro, for connection to the negative voltage terminal of a DC voltage source, hysteresis sensors S and negative voltage output terminal 02, for load connection.

The wiring of the DC current limiter shown in FIG. 2 differs from the wiring shown in FIG. 1 only in that it uses a npn type T transistor. In the circuit of FIG. 3, the DC current limiter is connected in the negative branch of the DC power supply and uses a pnp transistor T. Otherwise, it is identical to the previous connections. The circuit of Figure 4 differs from the circuit of Figure 3 only in that it uses a pnp transistor T.

If the excitation current at the excitation output 03 of sensor S with hysteresis is not sufficient to drive the transistor T, then an amplifier can be included in this output. The base resistance R3 may be omitted in some cases. A DC comparator can be used as hysteresis S sensors.

In some cases, the sensing resistor R1 may be a direct part of the DC voltage source.

If a small current flows from the DC voltage source to the load, the transistor T is excited by the hysteresis sensor S. It is open and the limiting resistor R2 does not apply. The magnitude of the current flow is monitored on a small sensing resistor R1 as a voltage drop. If the current exceeds the prescribed upper limit, the hysteresis sensor S evaluates this and turns off the transistor T excitation.

This is closed and the limiting resistor R2 is connected in series with the load. In order not to oscillate the whole circuit, my sensor has a sufficiently high hysteresis to ensure that the transistor T is re-energized, thus eliminating the limiting resistor R2 only after the current has dropped below the tripping value, which is lower than resistance R2.

The DC current limiter circuit according to the invention can be used where a DC voltage source is required whose current must be limited to avoid magnetic supersaturation. It is especially suitable for variable load.

Claims (1)

SUBJECT OF THE INVENTION DC limiting circuit with a limiting resistor, characterized in that one terminal of the polarity of the DC voltage source is connected to the input terminal (1, 2) of one DC voltage source, the other terminal of which is connected via a limiting resistor (R2) to the output terminal 01, 02) of the same polarity of the DC voltage source, parallel to the sensing resistor (R1) are connected sensing inputs (3, 4) of the sensor (S) with hysteresis, whose excitation output (03) is connected, possibly via an amplifier, T), the input terminal (1, 2) of the second polarity of the DC power supply is connected to the output terminal (01, 02) of the same polarity of the DC voltage and to the power input (5) of the sensor (S) with hysteresis. R2) a collector is connected to the other terminal of the transistor (T), whereby a base resistor (R3) is optionally connected between the emitter and the base of the transistor (T).