SU691980A1 - Apparatus for checking and protecting a power supply source against overcurrent - Google Patents

Description

one

The invention relates to electrical engineering and can be used in power supply systems.

An overcurrent protection device 1 is known, which contains a voltage regulator with an overcurrent protection, containing a ji.ee, in which a transistor control element is connected in series with the load. At the output of the stabilizer is included a current-stabilizing two-port. Its output is connected to the input of the regulating element and the output of the DC amplifier of the measuring organ. The input of the measuring body is connected to the output of the stabilizer. In the stabilizer, there is an optoelectronic device, the light source of which is connected to the collector circuit of the matching transistor, and the photoresistor is connected at one end to the collector of the regulating transistor and at the other end to the base of the protection transistor.

The known device does not protect all elements of the stabilizer from overload. So, if, for example, the load resistance decreases, then at first its current increases, and then with a speed determined by

the operation of the overload protection circuit is reduced. But since the transistor operates in the amplification mode, it may turn out that it will open so much that the current through the regulating element will be equal to the rated current. A further decrease in current does not occur. This mode can be long. And in this mode the control element is overloaded.

The closest in technical essence to the invention is a device for monitoring and protecting power supply 2, comprising a measuring unit consisting of an operational amplifier, feedback resistor and N-summing resistors. The output of the amplifier is via a matching link, a transistor-relay sensor is connected to the base of the tripping transistor, the input is connected via a series-connected resistor, a chain of a parallel Zener diode and a variable resistor, and a resistor to an additional power source.

Claims (2)

Such a device is not sensitive enough to current overloads, especially when current varies within wide limits. This is due to the fact that during overloads, i.e. load currents greater than the nominal value, stabilized power sources can maintain the output voltage within the acceptable range, however, regulating and other elements that are not designed for long-term operation in such modes can fail. If the power supply is in overload mode for a long time, the specified protection device may not work and do not disconnect the power supply from the mains because the measuring protection link responds to changes in the voltage of the power supply, and it may not change. The aim of the invention is to increase the sensitivity of the device when the load current varies over a wide range. The goal according to the invention is achieved in that a voltage resistor and a current sensor connected in series are inserted into a device for monitoring and protecting the current source overload, which is connected in series, with a measuring voltage source, parallel to the output of which the load is turned on, with the opposite poles of the power source and the software source of the voltage of the union, and the measuring element is connected in parallel with the current and the load, consistently. FIG. 1 shows a diagram of the device; in fig. Figure 2 shows diagrams explaining its operation, where curve A reflects the change in the voltage of the current sensor depending on the load current of the power source, curve B shows the change in the voltage of the software voltage source in accordance with a given load current, curve C represents the total voltage Curve A and B, Curve D is the voltage of the gate; washing the measuring organ. The device contains a power source 1 at the output of which a current sensor 2 and a variable resistor 3 are connected in series. The device has a software voltage source 4, the output of which includes a load (resistor) 5 connected to the current sensor. The power source and software voltage source are interconnected so that their opposite poles, current sensor and load have a common point. The current sensor is parallel to the circuit - the load is on measuring unit 6. The device operates as follows. In normal operation, the load mode of power supply 1 is set by variable resistor 3. A given load current, flowed through current sensor 2, causes a certain voltage drop (curve A in Fig. 2). In accordance with a predetermined program, a certain voltage is set at the output of source 4 (load 5), programmed for each value of the load current (curve B in Fig. 2). The total value of these stresses is shown in FIG. 2 - curve C. When any malfunction occurs, for example, if a fault occurs in the control system of resistor 3, which leads to an increase in the load current and overload of the power supply, the current through the current sensor increases. The voltage (curve A in Fig. 2) increases, which leads to such a value of the total voltage value that exceeds the response voltage of the measuring unit 6. The latter disconnects the load from the power supply. This provides protection against overloading the power supply. Using the device allows you to automatically adjust to the desired overload current, clearly define the overload mode and turn off the monitored object. This ensures the reliability of the control of the object in a strictly specified load modes corresponding to a given program. An apparatus for monitoring and protecting an overcurrent of a power source, comprising a measuring unit, as well as a variable resistor and a current sensor connected in parallel to the output of the power source, in series, in order to increase the sensitivity of the device when the current of the power source changes within a wide range, a software voltage source is introduced into it, parallel to the output of which a load is turned on, with the opposite poles of the power source and the software source combined voltage and the measuring body is connected in parallel and a load current sensor connected in series. Sources of information taken into account in the examination 1. USSR author's certificate number 483661, cl. G 05 F 1/58, 1975. 2. USSR author's certificate number 457986, cl. G 05 F 1/58, 1975. h M ig.2