DE1177736B - Overload protection for electronically stabilized power supplies - Google Patents

Description

Overload protection for electronically stabilized systems. The invention refers to an overload protection for electronically stabilized power supply units with a transistor as a controllable series resistor in the series branch between the power source and consumers, especially for power supply units with an output voltage of about 100 V.

It is well known that transistors are very sensitive to overload. In particular when using transistors as a corresponding control amplifier Controlled adjustable series resistances for electronically stabilized power supplies there is a risk of overloading and thus destruction of the transistor, as with Short circuit of the output terminals of such a power supply unit, the entire supply voltage the current source via the collector-emitter and / or via the collector-base path of the series transistor lies. Such overvoltages on the series transistor can even when switching on the power supply due to the charging of filter capacitors or the like. Effective alternating current short circuit arise. Since the short circuit the den Differential voltage controlling the control amplifier (output voltage minus comparison voltage) fully opens the series transistor, it is not only supplied with the full supply voltage, but also loaded with a very high short-circuit current and thus instantaneously destroyed, as even very nimble fuses are not effective at this speed can be.

Various circuits have been used to solve this problem suggested. For example, it is known to protect such series transistors parallel to these a Zener diode with a correspondingly dimensioned breakdown voltage to arrange. However, as is well known, Zener diodes speak due to their blocking inertia very slowly, so that with the known arrangement there is no safe and fast effective Protection of the transistor is guaranteed. Otherwise, Zener diodes are themselves relative sensitive to current overload and require a certain amount of current limitation Upstream connection of a resistor or the like. It is also already known through series connection a resistor to increase the inherent resistance of the voltage source so as to Protect transistor from overload. It is also known the transistor such power supplies against overload by relays or electronic switches to - protect, for example by a flip-flop switch controlled by an RC element, which take effect when the power supply output is short-circuited and a voltage interruption or cause blocking of the transistor. Furthermore, a protective circuit is known, in which a transistor with a grid-controlled thyratron tube against overload is protected. In this known circuit, soll_at a certain voltage on the grid of the thyratron tube this ignited and thus the transistor lowered be bridged. In this known arrangement, however, the thyratron tube bridges not the series connection of resistor and transistor, and the transistor is therefore, if the thyratron is ignited, it does not counteract until the fuse has responded Overload protected.

It is the object of the invention to provide a simple and inexpensive one that can be implemented Overload protection for electronically stabilized power supplies with a transistor to create as an adjustable series resistor, which is certainly a destruction . of the series transistor by overvoltage: and / or overcurrent prevented.

This object is achieved according to the invention by the combination of the following Individual features resolved, with protection only for the entire combination, but none Independent protection for individual combination features is desired: a) in series to the transistor is in a manner known per se, a resistor, in particular a Choke, switched, b) in the series branch of the power supply is in a manner known per se arranged a fuse, c) parallel to the series circuit of transistor and resistance is a gas-filled discharge vessel, in particular a noble gas or mercury vapor-filled arc discharge tube, arranged d) in series with the A biased capacitor is connected to the discharge vessel. By the functional interaction of the combination features according to the invention with simple circuitry means, on the one hand, a fast and safe one The discharge vessel responds in the event of an overcurrent and also until it becomes effective the fuse provides reliable protection of the transistor against current overload guaranteed, as the series resistance provides a very favorable current distribution is achieved between the transistor branch and the discharge vessel, without this in the actual A disruptive limiting resistor is switched on in series branch. That as possible rapid response of the fuse after the discharge tube has been ignited not influenced by the series resistance in the circuit according to the invention, because the current through the fuse is not due to the series resistance limited. By connecting a capacitor in series to the discharge vessel, what is also already known for itself, it is possible to use any glow lamps Ignition voltage to set any desired response voltage. Depending on the dimensioning a corresponding voltage divider can namely the capacitor positive or are negatively biased and thereby the effective ignition voltage of the glow lamp be increased or decreased.

According to a further development of the invention, it has proven to be advantageous proven when an ohmic resistor is connected in parallel to the choke. The capacitor bias can be generated in any way, preferably however, in such a way that parallel to the discharge vessel and parallel to the capacitor an ohmic resistor is connected in parallel. The overload protection according to the invention can also be used successfully with power supplies for high voltage, whereby then one consisting of two electron tubes, in particular a double triode Differential amplifier and two or more series-connected transistors in a series branch are provided.

The invention is illustrated by means of schematic drawings of exemplary embodiments explained in more detail.

F i g. 1 shows the arrangement of an overload protection device according to the invention in the case of a conventional electronically regulated power supply unit with a transistor in the series branch; F i g. 2 shows the use of an overload protection device according to the invention in a preferred embodiment of an electronically stabilized power supply unit.

In Fig. 1 shows a conventional electronically stabilized power supply unit in which a transistor 3 acting as a controllable series resistor is arranged between a direct current source 1 and a load 2 in the series branch. This transistor 3 is controlled via its base-emitter path by a control amplifier 4, which in turn is controlled by the differential voltage between the output voltage U, 4 applied to the load 2 and the comparison voltage UV of the highly constant reference voltage source 5.

According to the invention, a resistor is now in series with the transistor 3 6 and a discharge vessel 7 connected in parallel to the series circuit. The resistance 6, with regard to the very low-resistance emitter-collector path in the event of a short circuit of the transistor is required and which is dimensioned so large that when one occurs Short circuit, the ignition voltage of the discharge vessel 7 is reached, a Ohmic resistance or a throttle or the like. Be. The discharge vessel 7 is preferably a conventional arc tube, for example one filled with noble gas or mercury vapor Tube which, when its arc voltage is exceeded, suddenly forms a low-resistance arc line ignites. In series with this parallel connection of resistance 6 and transistor 3 on the one hand and discharge vessel 7 on the other hand is conventional Overcurrent fuse 8, for example a fuse, is arranged.

When the resistor 6 is designed as a throttle, this can be achieved by a ohmic resistance 10 be bridged, thereby avoiding any undesired parasitic oscillations be avoided. In order to avoid that the discharge vessel 7 is already slightly Mains voltage fluctuations or consumer fluctuations take effect is in series to the discharge vessel 7 a correspondingly dimensioned capacitor 11, for example an electrolytic capacitor, switched, through which only when noticeable and erratic Voltage changes, as they are generally only in the case of pure short circuits of the Consumers occur, the discharge vessel 7 can be ignited.

In order to obtain defined potentials at the series connection of the discharge vessel 7 and the capacitor 11 and to divide the voltage applied to the capacitor 11 , according to a further feature of the invention, a resistor 12 is parallel to the discharge vessel 7 and, furthermore, a resistor 13 is parallel to the capacitor 11 switched.

The mode of operation of the overload protection according to the invention is as follows: When the load 2 is short-circuited, a relatively high voltage drop occurs across the series connection of transistor 3 and resistor 6, through which the discharge vessel 7 is suddenly ignited and effectively no overvoltage on the collector-emitter path of the transistor 3 occurs because at the moment the discharge vessel is ignited, a relatively low-resistance discharge path is parallel to the transistor and practically bridges it with a short circuit. Shortly after the discharge vessel has been ignited, the fuse 8 then becomes effective and disconnects the stabilized power supply unit from the voltage source.

The overload protection according to the invention can be used electronically for all possible Regulated power supplies are used that are designed for relatively high voltages are and where in the series branch as a controllable resistor one or more if necessary transistors connected in series and / or in parallel are arranged.

However, the overload protection according to the invention has proven to be particularly useful in an electronically stabilized power supply unit which, as shown in FIG. 2 is designed for high output voltages and in which the control amplifier 4 is formed from two electron tubes 14, 15, for example in the form of a double triode.

In this embodiment, in order to avoid larger voltage fluctuations, how they occur with power supply units with higher output voltages to be able to regulate, two transistors 3 and 3 'connected in series. With the help of a backward control loop the transistor 3 'is controlled, with voltage fluctuations caused by residual fluctuations the initial Tension. Here, the transistor 3 at the same time with the help of the transistor 16 just controlled so that the to the Transistors 3 and 3 'occurring total voltage drop in equal parts on the Divides the emitter-collector paths of both transistors. To do this, the resistors 17 and 18 of the voltage part impressing the base voltage of transistor 16 are the same chosen large. To control the transistor 3 'is used from the tubes 14, 15 and the transistor 19 existing amplifier. The input stage is a differential amplifier educated. While the tube 15 only with a small fraction of the output voltage fluctuation is controlled, since the resistor 26 is small compared to the resistor 25, is the tube 14 is controlled with a large proportion of the output voltage fluctuation, since the stabilized voltage source 22 (reference or comparison voltage source) a corresponding dimensioning of the voltage part from the resistors 23 and 24 calls. The small effective between the two grids of the tube 14 and 15 The differential voltage controls the anode current amplified by the transistor 19 Tube 14 so that fluctuations in the output voltage by base current control of the series transistor 3 'are regulated. The one parallel to the common cathode resistor the condenser 27 connected to the tubes 14 and 15, as well as the condenser 28 for an even higher AC loop gain of the control loop than she does already prevails in terms of direct current. So that the anode current of the transistor 14 as possible is impressed well as the base current of the transistor 19, the feed resistance 21 of this circuit is dimensioned with a corresponding high resistance. This is done through the Auxiliary voltage source 20 allows, which is preferably stabilized by a Zener diode is.

The resistors 29 and 30 ensure high heating and a high voltage drop at the transistors 3 and 3 'for the polarity reversal required in this operating case of the corresponding base currents. To increase the voltage drop across these resistors, which in turn means a higher-resistance dimensioning and thus a better impression which allows base currents for regulation, a diode 31 is provided, which is shown here in Forward direction operated causing a voltage drop that is far less than in the case of a resistance, depends on the output current.

Claims (4)

Claims: 1. Overload protection for electronically stabilized Power supply units with a transistor as a controllable series resistor in the series branch between Power source and consumer, g e k e n n n z e i c h -n e t d u r c h the combination the following features: a) in series with the transistor (3) is in a manner known per se a resistor (6), in particular a choke, connected, b) in the series branch of the A fuse (8) is arranged in a manner known per se in the power supply unit, c) parallel to the series connection of transistor (3) and resistor (6) is a Gas-filled discharge vessel (7), in particular one filled with noble yarn or mercury vapor Arc discharge tube, arranged d) in series with the discharge vessel (7) is a prestressed one Capacitor (11) switched. 2. Overload protection according to claim 1, characterized in that that an ohmic resistor (10) is connected in parallel with the throttle (6). 3. Overload protection according to Claim 1 or 2, characterized in that the capacitor bias by one each parallel to the discharge vessel (7) and parallel to the capacitor (11) switched ohmic resistance (12 or 13) is generated. 4. Overload protection according to claim 1 to 3, characterized in that this in a power supply unit for high voltages with one of two electron tubes (14, 15), in particular one Double triode, existing differential amplifier and two or more connected in series Transistors (3, 3 ') is provided in the series branch (Figure 2). Considered Publications: German Auslegeschriften No. 1084 820, 1080 215; U.S. Patent No. 2 925 548; H e r r n k i n d, "The glow tube and its circuits", Munich, 1952, pp. 56, 57.