DE1209621B - Mains connection device with automatic overload protection - Google Patents

Description

Mains connection device with automatic overload protection The invention is aimed at a power supply unit for generating a stabilized DC voltage with automatic overload protection through automatic interruption in the event of overload and reclosing after the overload has been removed using a multivibrator.

There are already protective circuits for power supply units to avoid this of damage in the event of overload, in particular short circuits, became known. So became For example, a protective circuit specified in which from a three-phase network over a full wave rectifier part a high frequency oscillator is fed to the one Load of fluctuating size is connected. As protection against shock loads a multivibrator is connected between the rectifier part and the high-frequency stage, however, via a differentiator, which only provides a automatic shutdown, but with slowly increasing load not. In the present invention, however, the control voltage is via an integration element fed to the multivibrator, so that a shutdown by brief, pulse-like Overload does not occur, but in the case of long-term overloads that cause the Power supply are dangerous.

A transistor-controlled power supply unit is also known. Apart from the fact that in this case the actuation after automatic shutdown has taken place a special key to restore the initial state is necessary the connection between the multivibrator and the power supply is purely galvanic, which also applies to the first-mentioned known circuit applies. In contrast, the Invention this connection via a capacitor, d. H. so galvanically separated, thus the possibility of any potential difference between the power supply on the one hand and the multivibrator serving as a control switch on the other hand. This is important and advantageous in view of the high power supplies used Operating voltage, because this means that the operating voltage for the multivibrator is not needs to be raised to the potential of the high-frequency power supply.

The circuit arrangement according to the invention for power supply units for In contrast, generating a stabilized DC voltage is characterized by that the transistor multivibrator is dependent on the DC voltage of the power supply unit can be controlled via an integration element and which is activated when the power supply unit is overloaded occurring output voltage of this transistor multivibrator a subsequent Transistor oscillator circuit affected so that the output AC voltage this Transistor oscillator via a capacitor and a subsequent rectifier arrangement supplies such a bias to the regulated tube of the power supply that the DC circuit of the power supply unit is interrupted.

In carrying out this idea, the two-transistor switch flips Multivibrator circuit when the maximum direct current value is exceeded in the unstable state, so that the transistor oscillator connected to the multivibrator circuit swings. In a further development of the invention, the AC output voltage influences of the transistor oscillator via a voltage doubling circuit Rectifier arrangement, the control grid in the longitudinal circuit of the power supply unit lying tube in the sense of a blocking of this tube.

The two transistor stages of the multivibrator circuit, the different Supply output power, work alternately, depending on whether a stable state of the power supply unit (normal operation) or an unstable state of the power supply unit (Overload condition) is present.

The circuit arrangement according to the invention is based on an exemplary embodiment, which is shown in the figure, explained in more detail.

The circuit arrangement shown is a mains connection circuit, stabilized by means of the tubes Röl and Rö2, for supplying a stabilized direct voltage of, for example, 180V. The AC voltage is connected to the tube circuit with the tubes Röl and Rö2 at A and B via a full-wave rectifier arrangement G. The electronic safety circuit consists of the monostable multivibrator formed by the transistors T2 and T3, which works on the transistor oscillator T1.

The transistor R1 is used to control the transistors T2 and T3 resulting voltage drop for example about 1 V. To adjust of the response current is .. a controllable resistor R2 connected in parallel. In normal Condition, d. H. In the stable state of the multivibrator, the transistor T3 is blocked and the transistor T2 conductive. The base of the transistor T1 is connected to one small negative voltage, which is the sum of the voltage drop across the resistor R22 and the saturation voltage of transistor T2 corresponds. By means of resistance R14 the emitter voltage of the oscillator transistor T1 can be adjusted so that the current of T1 is almost zero and the oscillator working in the basic circuit T1 does not start to oscillate with the oscillating circuit C15 and L1. When exceeding an on Resistance R2, the adjustable maximum current value tilts the multivibrator into the unstable state, and transistor T3 becomes conductive, while transistor T2 is blocked is. The base of the transistor T1 is now at a much higher negative Voltage that causes a powerful current to flow through transistor T1 and its oscillator circuit can oscillate. The alternating voltage generated by the transistor oscillator T1 becomes via the capacitor C5 to the rectifier arrangement working as a voltage doubler Gel to Ge4 and generates a DC voltage there, which is sent to the control grid the tube Röl lying in the longitudinal circle of the power supply unit and thereby a Blocking of this tube and thus an interruption of the direct current of the power supply unit causes.

After the expiry of the time constant of capacitor C9 and R16 in the multivibrator circuit T2IT3 certain unstable phase of the multivibrator takes place the tilting back of the circuit and, accordingly, a suspension of the oscillator oscillation in the circle of T1 and the restoration of the current in the power supply unit. The power supply continues to work normally as soon as the overload has been eliminated.

At C, the operating voltage for the multivibrator circuit is T2 / T3 fed through a voltage doubling circuit.

If the overload of the power supply circuit continues, the Switching back and forth periodically, the switch-on phase being so short that none Overload of any switching elements can occur.

The diode rectifier Ges decouples the control voltage caused by the circuit, thereby ensuring proper functioning of the multivibrator circuit is guaranteed.

The circuit arrangement according to the invention is an automatic Switching off the power supply unit in the event of overload and automatic restart after Disappearance of the overload made possible with relatively simple means.

Claims (5)

Claims: 1. Mains connection device for generating a stabilized DC voltage with automatic interruption in the event of overload and restarting after the overload has been removed using a multivibrator, which is characterized by the fact that the transistor multivibrator (T2 / T3) is dependent on the DC voltage of the power supply via an integration element ( R21C6) is controllable and the output voltage of this transistor multivibrator, which occurs when the power supply unit is overloaded, influences a subsequent transistor oscillator circuit (T-1) in such a way that the output AC voltage of this transistor oscillator via a capacitor (C5) and a subsequent rectifier arrangement applies such a bias voltage to the regulated tube (Rö 1) of the power supply unit provides that the DC circuit of the power supply unit is interrupted. 2. Power supply unit according to claim 1, characterized in that if the mains connection device is overloaded the output voltage of the multivibrator (T2 / T3) the base bias of the transistor oscillator (T1) makes it so strongly negative; that the latter gets into oscillation and an output alternating voltage supplies. 3. Mains connection device according to claim 1 or 2, characterized in that the AC output voltage of the transistor oscillator (T1) via a voltage doubling circuit working rectifier arrangement, the control grid in the longitudinal circuit of the power supply unit lying tube influenced in the sense of a blocking of this tube. 4. Mains connection device according to one of claims 1 to 3, characterized in that a diode (Ge5) is switched on between the resistor (R2) and capacitor (C6) of the integration element. 5. Network connection device according to one of claims 1 to 4, characterized characterized in that the multivibrator consists of two transistors of different output power exists that work alternately, depending on whether a stable state of the power supply unit (Normal operation) or an unstable state of the power supply unit (overload state) is present. Documents considered: German Patent No. 1050 877; German Auslegeschriften Nos. 1054 507, 1083 355; U.S. Patent No. 2,809,293; "Radio mentor", 1959, No. 1, pp. 34/35.