SU918942A1 - Voltage stabilizer with protection - Google Patents

Description

(5) VOLTAGE STABILIZER WITH PROTECTION

one

The invention relates to secondary power sources for scientific experiment, automation, computing and measuring equipment and radio electronics.

A voltage regulator with a protection is known, comprising a regulating element on a transistor, a feedback amplifier and an overload and short-circuit protection device, consisting of a resistive overload current sensor and auxiliary; nodes l.

The closest technical solution to the invention is a voltage regulator with protection, containing a regulating element connected in series to a power bus on a composite transistor, a control circuit connected to the output of a DC amplifier, a current sensor, a threshold element, an actuating transistor, a collector connected to the control regulating circuit

element, reference element, feedback resistor and summing resistor 2.

The disadvantages of a known stabilizer with protection are the lack of a set of such necessary qualities as current and power protection at an output voltage that is regulated over a wide range - from volts or less, signaling overload: auto return to working condition after removal load or reduce it to a set value.

Claims (2)

The purpose of the invention is to expand the functional capabilities of protection and increase reliability by providing high-speed protection against overloads of current and power with auto return and signaling under conditions of regulating the output voltage over wide limits, starting from fractions of a volt, with the minimum number of elements. 39 The goal is achieved by the fact that in a voltage stabilizer with protection the threshold element is made on two Transistors of different conductivity types and series-connected LEDs and a limiting resistor included between the collector and emitter of these transistors, the emitter of the first transistor being connected to one of the current sensor terminals ,, the other pin of which is connected to the emitter of the transistor of the regulating element, the base of the first transistor is connected to the emitter through a summing resistor Either the regulating element directly or through the input voltage sensor, its shunting, emitter-collector junction, and through a feedback resistor - to the collector of the second transistor, whose base is connected to the collector of the first transistor, the base-emitter junction of which is connected in parallel to the base-emitter junction of the executive transistor, the emitter of the second transistor is connected to the introduced additional power source, to which the DC amplifier and the supporting element are connected. In addition to the first transistor of the threshold element, a summing resistor is connected to the emitter of the transistor of the regulating element. The drawing shows the electrical circuit of the proposed stabilizer with protection. The stabilizer contains a series regulating element 1 on transistors, a control target connected to the output of the feedback amplifier 2, the second element is connected to the input element 3 and the output voltage divider, a resistor load 5, a current sensor 6 of the regulating element 1, a voltage sensor Zener diode 7 and resistors 8 and 9, shunt the collector-emitter junction of the transistor of the regulating element 1, the transverse element of the transistors 10 and 11 and the diode 12, and the full transistor 13, the emitter of which is under the keys to the limiting resistor 1, and the base to the feedback resistor 15 and to the summing resistor 4 16 and an additional source 17 of power. The stabilizer operates as follows. In the absence of overloads, the transistors 10, 11 and 13 are locked, the LED 12 is turned off. If the load current through resistor 5 exceeds the permissible value, the voltage on current sensor 6 opens transistor 11, which causes opening of transistor 10. Simultaneously through resistor 15 the base of the transistor 11 is supplied with a positive feedback voltage, which causes the full opening of the transistors 10 and 11, the transistor 13 receiving the same control signal to the base as the transistor 11 is also fully openable, the base of the second transistor of the regulating element 1 with its emitter and, thus, locking the regulating element, which leads to a drop in current through the load resistor 5 to a small residual value, which is previously set by the feedback resistor 15. A decrease in the load current leads to a decrease in the voltage on the sensor 6: current, but due to the positive feedback generated by the transistor 10, the transistor 13 remains fully open, the LED 12 begins to glow, giving an overload (short circuit) signal and preparing the circuit for auto return. . After the protection trips and the operator then reduces the load current to less than the residual current or disconnects the load resistor 51, the voltage on the current sensor 6 disappears and the circuit automatically returns to its original state. When the voltage on the emitter-collector section of the transistor of the regulating element 1 is higher than the permissible value, the voltage on the resistor 9 opens the transistor 11 and a process similar to that described occurs. The combined action of the current sensor 6 and the voltage sensor protects the transistor of the regulating, power element 1. Thus, in case of overloads and short circuits at the output causing overload of the regulating element 1, the signaling is carried out and the current through the regulating element 1 drops to a very small value, which is preset by feedback resistors 15, which ensures protection of the stabilizer with increased reliability. At the same time, after the protection has been triggered by reducing the current in the load to a value less than the residual current, the circuit automatically returns to its original operating state, which increases the reliability and efficiency of operation with the stabilizer. When setting the feedback resistors 15 to a sufficiently small value of the residual current in most cases practically at any voltage across the transistor of the regulating element 1, the latter is not overloaded also in power even when the load resistor 5 is short-circuited. In these cases, the elements 7-9 are not required, and the summing resistor 16 is connected directly to the emitter of the transistor of the regulating element 1 (shown in dotted lines), which leads to a further increase in the efficiency and reliability of the circuit. The proposed stabilizer, thanks to the effective high-speed drag on current and power from the pere-. loads and short circuits, signaling and auto-return to working condition with a minimum number of elements has an increased reliability and technical and economic efficiency with almost any range of voltage regulation on the load, | starting with volts and below. Claims An overvoltage voltage regulator with a protection regulating element connected to a power bus on an integral transistor, a control circuit connected to the output of a constant current amplifier, a current sensor, a threshold element, an actuating transistor, a collector connected to the control circuit of the control element, a reference element, feedback resistor and summing resistor, so as to enhance the functionality of the protection and increase the reliability of the stabilizer , the threshold element is made of two transistors of different conductivity type and series-connected LEDs and a limiting resistor connected between the collector and the emitter of these transistors, with the emitter of the first transistor connected to one of the current sensor, the other output of which is connected to the base of the first transistor through a summing resistor is connected to the emitter of the transistor of the regulating element directly or through an input sensor, for example and, shunting its emitter-collector junction, and through a feedback resistor - to the collector of the second transistor, whose base is connected to the collector of the first transistor, whose batch-emitter junction is connected parallel to the base-emitter junction of the executive transistor, the emitter of the second transistor is connected to the introduced additional power supply to which the DC amplifier and the supporting element are connected. Sources of information taken into account during the examination 1. USSR author's certificate f, cl. G 65 F 1/58, 197. 2. USSR author's certificate itl8845. cl. G 05 F 1/58, 1972. lC