SU957340A1 - Device for protecting against overvoltage and voltage fall lower than preset level - Google Patents

Description

(5) PROTECTION DEVICE FROM OVERVOLTAGE AND REDUCING VOLTAGE BELOW

one

The invention of; 1sits to electrical engineering, in particular, is intended to protect the load from overvoltage 1. from decreasing the voltage below a predetermined level.

The basic requirements for these devices are simplicity, reliability and the ability to easily interface with power switching devices.

A device that reacts to an increase and decrease in voltage ij is known.

However, this device contains three transistors and requires an external power supply. In addition, in order to realize the emergency signal generated by the circuit, an additional device is needed for matching with the switching equipment. All this complicates the practical application of this protection.

A relay device is known for monitoring a constant voltage of a CREATED LEVEL.

holding four transistors, two zener diodes, two diodes and ten resistors 2.

However, this device has a complex scheme and needs additional coordination with the switching equipment.

A device is known for monitoring voltage changes in which the current of the control electrode of the thyristor flows through the transistors S1.

Claims (3)

Typically, the thyristor control current is tens, and for some types of thyristors hundreds of milliamps, i.e. to ensure reliable thyristor connection, rather powerful transistors are needed, and therefore, to reduce the temperature change of the protection setting, the bases of the transistors must be connected to high-current voltage dividers, which leads to an increase in the current consumed from the monitored circuit. As a result of reduced efficiency, the size and weight of the device increase. Thyristor control is rational to carry out short pulses. The semiconductor device most convenient for this purpose is a single transistor, whose circuit has a large input resistance, which eliminates the need for a high-current voltage divider, a small output resistance, and thus can provide short (but 1x) pulses per the thyristor reference electrode, thereby ensuring the inclusion of thyristors of almost any power, the closest to the proposed technical essence is a relay overvoltage protection or from reducing Neither voltage is below a given level, which contains transformers, a rectifier, a zener diode connected by a cathode through a resistor to the plus rectifier, an adjustable voltage divider connected in parallel to the rectifier, and two single-junction transistors with capacitors k connected to the emitters. However, this device is structurally complex and requires two executive organs. Protection, controlling $) at the minimum voltage, can only be triggered after the protection responds to an increase in voltage. The purpose of the invention is to simplify the device, increase reliability, and expand its functionality by providing overvoltage protection and against voltage reduction. The goal is achieved by the fact that in an overvoltage protection device and from lowering the voltage below a predetermined level, containing a transformer, rectifier, zener diode connected by cathode through a resistor to the rectifier plus, the first adjustable voltage divider connected in parallel to the rectifier, two unions A transistor, each of which has a capacitor between the emitter and a minus of the switch, included a common thyristor and a second adjustable voltage divider connected in parallel to the zener diode, the first The single-junction transistor base is connected between itself and the common thyristor control electrode, and the four (.resistor with the minus of the rectifier and with the common thyristor cathode, the second base of the first single-junction transistor is connected through the resistor to the cathode of the Zener diode, and the emitter circuit of the first single junction transistor connected via the first adjustable voltage divider to the rectifier, the second base of the second single junction transistor is connected to the plus of the rectifier, and the emitter circuit of the second single junction transistor connects Chen the movable contact of the second-controlled voltage divider. The drawing shows an electrical schematic diagram of the proposed device. The device contains a transformer 1, to which the rectifier 2 is connected, an adjustable divider 3 voltage is connected to the rectifier, the second base of the single junction transistor k is connected to the rectifier plus, and the cathode of the zenerron 6 is connected through the ballast resistor 5 to which the second base is connected through the resistor 7 a single junction transistor 8, the anode of the Zener diode is connected to the minus of the rectifier, parallel to the Zener diode 6 an adjustable voltage divider 9 is connected, the moving contacts of the adjustable dividers 3 and 9 are connected respectively But with the terminals of the capacitors 10 and 11 and the emitters of the unijunction transistors 8 and +, the second leads of the capacitors 10 and 11 are connected to the minus of the rectifier, the first bases of the single junction transistors 8 and k are connected to each other and to the control electrode of the thyristor 12, and through the resistor 13 connected to the minus rectifier 2 and the thyristor cathode 12. The device operates as follows. As the voltage in the controlled circuit increases above a predetermined value, the voltage at the output of the rectifier, and therefore, on the voltage divider 3 and capacitor 10, rises to the level at which the emitter junction of the transistor 8 is unlocked and the capacitor 10 is quickly discharged through a resistor 13 and the control electrode of the thyristor 12, this leads to the inclusion of the thyristor 12 and, consequently, to the closure of the circuit connected to the anode of the thyristor. When the monitored voltage drops below a predetermined value, the voltage at the output of the rectifier, and hence at the second base of the transistor i, decreases to a level at which the voltage applied between the second base and the first base is insufficient to maintain the locked emitter state transition, the voltage on which is set by the divider 9 and stabilized by the zener diode 6. The emitter transition of the transistor C opens and the capacitor 11 is quickly discharged through a resistor 13 and a control elec- trode the torus 12, which leads to ON cheniyu thyristor. Thus, the introduction of a common thyristor 12 into both parts of the protection device makes it possible to create, in conjunction with the signs listed with the signs, a unified, compact, simple protection device against overvoltage and undervoltage, which does not require an additional power source. Single junction transistors allow the use of thyristors of different power and this makes it possible (without additional complication of the apparatus) to switch circuits of different power, which allows the proposed device to be widely used in various industries. Yes radio devices. The use of the invention allows the protection of voltage regulators and power supply chains of the radar of the radar station to be protected. Raising and lowering the filament of high-power electrically vacuum devices is unacceptable, since this may lead to failure of expensive equipment. The use of the device will increase the reliability of the entire station. Protection against undervoltage, made on the current relay, in series with which the ballast is installed, the resistor has a large variation in the level of operation and consumes more power. Overvoltage protection, containing transistors, a reference source and requiring an additional stabilized power supply, is more complex and less reliable. Claims An overvoltage and overvoltage protection device comprising a transformer, rectifier, zener diode connected by cathode through a resistor to the rectifier plus, the first adjustable voltage divider connected in parallel to the rectifier, two unijapping transistors between the emitter Each of which and the minus of the rectifier included capacitors, characterized in that in order to simplify the device, increase reliability and expand functionality, it introduced The common thyristor and the second adjustable voltage divider, connected in parallel with the zener diode, the first bases of the unijunction transistors are connected to each other and to the common electrode of the common thyristor, and through a resistor to the minus of the rectifier and to the cathode of the common thyristor, the second base of the first single junction transistor is connected through a resistor with a zener cathode, and the emitter circuit of the first single junction transistor is connected via the first adjustable voltage divider to the rectifier, the second base of the second single junction the transistor is connected to the plus of the rectifier, and the emitter circuit of the second single junction transistor is connected to the moving contact of the second regulated voltage divider. Sources of information taken into account during the examination 1. USSR author's certificate 262232, cl. H 02 H C / 2t. 1970. 2. USSR author's certificate ff, cl H 02 H 3/24, 1970. 3. Author's witness; USSR No. 720605, CL-. H 02 H y / 2C, .1980. k. Japanese Patent K 50-23735, cl. H 02 H 3/2, 1975.