DE1152480B - Electronic fuse for a stabilized power supply - Google Patents

Description

Electronic fuse for a stabilized power supply unit It is a Power supply unit with an electronic fuse known (Radio Mentor, 1962, p. 506 and 507), in which a transistor switched on in the consumer supply line is through the voltage drop across a resistor in series with the transistor is controlled so that the transistor is opened when the power supply is overloaded. Since the voltage across the resistor also decreases as the current decreases, the current can only be limited, it will not be zero. Depending on the size of the tensions the transistor will be overloaded. Another disadvantage of such an electronic Assurance is that errors can occur when using this electronic Fuse circuit at the consumer instead of the voltage suddenly the current essentially remains constant.

There are known electronic fuses for power supply units in which the voltage at the output terminals as a switching criterion for opening an electronic switch connected to the consumer line is used. Such However, circuits fail with voltage-stabilized power supplies, which naturally the voltage at the output terminals is constant. With voltage-stabilized power supply units it was previously only possible, as described above, to limit the load in the sense to perform a current limitation.

These disadvantages are avoided by the invention. The invention relates to an electronic fuse for a stabilized power supply unit with a Depending on the consumer current in the sense of a load limitation controlled transistor. The invention consists in that the transistor is additionally dependent on the voltage standing at the transistor is controlled in the same sense and that the two Control voltages are dimensioned in their size and to each other so that the transistor non-conductive above a certain load and automatic below this load becomes conductive.

In the event of an overload, the transistor controls through the consumer current increases the voltage at the transistor. With the additional control of the transistor as a function of this voltage applied to the transistor achieve a decrease in the consumer current with increasing consumer load. The decrease in current occurs suddenly. This will put the transistor in front of everyone Overload protected. In addition, errors cannot occur because of the current becomes very small. If the load goes back from the overload to one in the operating range If the load is back, the current suddenly rises again to the through the Voltage-related value at the consumer.

On the basis of an embodiment shown in the drawing the invention will be explained in more detail for a stabilized power supply unit.

To stabilize the from a power supply unit, not shown The voltage supplied to terminals 1 and 2 is used by a switched-on supply line Transistor 3, the base of which is through a Zener diode biased with a resistor 4 5 is controlled for the purpose of stabilization. A resistor 6 is used for adjustment of the operating point of the transistor 3. In series with the transistor 3 is a small one Resistor 7, at which a voltage to control the emitter-base path of a Transistor 8 drops. To set the operating point of the transistor 8 is used a voltage divider with resistors 9, 10 and 11 .. The connection point between the resistors 9 and 10 is connected to the terminal 1 via a resistor 12. Terminals 13 and 14 lead to the consumer.

If the resistance of the consumer drops beyond the permissible level, so the voltage across the resistor 7 rises, and the transistor 8 becomes with increasing Conductive voltage. This reduces the at the emitter-base path of the transistor 3 standing voltage, and the voltage across the emitter-collector path of this The transistor rises, so that the current is limited. With increasing tension at the emitter-collector path of the transistor 3, the current also takes through the Resistors 12 and 9 too. The voltage at the resistor 9 that increases as a result the transistor 8 is still conducting and thus the transistor 3 practically non-conductive. Only a small residual current remains. This process takes place suddenly, so that the transistor 3 is protected from overload. The load decreases something off again; so the process described takes place in reverse, so that the transistor 3 suddenly becomes conductive again. The switch-off point is essentially determined by the Resistor 11 (operating point of transistor 8), essentially the restart point determined by the resistor 12.

Claims (2)

PATENT CLAIMS: 1. Electronic fuse for a stabilized. Power supply unit with a load limitation depending on the consumer current controlled transistor, characterized in that the transistor is additionally in Controlled in the same way as a function of the voltage at the transistor and that the two control voltages are so dimensioned in terms of their size and each other are that the transistor is non-conductive above a certain load and below it this load automatically becomes conductive. 2. Electronic fuse according to claim 1, characterized in that first the transistor (3) in the consumer feed line and then a resistor (7) is switched on, the one falling across the resistor (7) Voltage is amplified via a second transistor (8) and to control the first transistor (3) is used that between the connection point between the first Transistor (3) and the resistor (7) a voltage divider (9, 10, 11) is that the control electrode of the second transistor (8) at a tap of the voltage divider (9, 10, 11) and that a tap of the voltage divider (9, 10, 11) via a Resistor (12) is connected to the network side of the first transistor (3). Into consideration Drawn pamphlets: German Auslegeschriften No. 1072 714, 1080 215, 1069 760, 1050 877.