SU536565A1 - Intrinsically safe source of constant stabilized voltage - Google Patents

Description

one

The invention relates to electrical engineering and is intended for use in automation systems, telemechanics, communications, operated in explosive atmospheres in the enterprises of mining, chemical, petroleum and other industries.

An intrinsically safe power supply is known, in which intrinsic safety is achieved by shunting a load with a tirpstorm protection followed by automatic restoration of circuit 1.

Most closely to the invention is an intrinsically safe constant voltage source containing a half-wave rectifier connected to separate secondary windings of a power transformer and two thyristor-controlled full rectifier rectifier, whose cathodes are combined, and the control circuits are connected to the output pulse generator; a smoothing filter and a current limiter connected to the output of the full-wave controlled rectifier; connected in parallel to the output terminals of the protective thyristor, the control electrode of which through a zener diode is connected to an overload sensor according to the protected parameter included in the output circuit of the source 2.

In this device, when an overcurrent or short circuit occurs, a non-linear section appears on the load characteristic, resulting in a sharp decrease in the nominal mode output power when using the device as an intrinsically safe power source. Current limiter stabilizer prevents sudden damage

the latter, but does not protect it from overheating during a long short circuit at the output, and this reduces the reliability of the stabilizer and the device as a whole. An increase in the output voltage triggers a protective thyristor, a capacitor Co (and in emergency mode the capacitor CJ is discharged directly to the protective thyristor, which drastically reduces its reliability, as well as the power of the voltage regulator and the device as a whole. In addition, this device It does not repair itself when the protective thyristor is triggered.

The purpose of the invention is to increase the reliability of the source.

For this, a circuit consisting of a series-connected diode connected in the forward direction is connected in series with the protective thyristor, in parallel with which the power terminals of the generator are connected.

Claims (2)

trigger pulses, capacitive storage, resistor and single-wave rectifier. In addition, in order to improve the intrusive characteristics, the current limiter is designed as a diode-shunted diode. The drawing is a schematic of the proposed intrinsically safe source of constant stabilized voltage. Intrinsically safe source contains a power transformer 1; half-wave rectifier 2; full-wave controlled rectifier 3, made on diodes 4, 5 and thyristors 6, 7, the cathodes of which are combined, and 1 controlled our circuits shunted by resistors 8, 9 and through the capacitors 10 and I are connected to the output of the start-up generator 12, their pulses assembled on a two-base diode 13, resistors 14, 15, 16 and a capacitor 17; smoothing, its filter 18, the current limiter 19, made in the form of droplets 20; shunt diode 21; a protective thyristor 22 connected in parallel with the output terminals, the control electrode of which through Zener diode 3 is connected to the overload sensor 24 via the overload, the output parameter connected to the output power supply circuit; a diode 25 connected in series with a serial thyristor; capacitive storage 26, limiting resistor 27, voltage regulator 28 with a voltage, and voltage across it. When the load current increases above the safe value, i.e., in case of overload or short circuit, the overload sensor 24 turns on the protection thyristor 22, which shunts the output circuit. In this case, the diode 25 connected in series with the protective thyristor 22 bridges the bus generator 12 trigger pulses, the thyristors 6 and 7 of the full-wave controlled rectifier 3 are locked at the anode supply, and the protective thyristor 22 is locked at a time determined by the time of the smoothing discharge filter 18. After locking the protective thyristor 22, the generator 12 of trigger pulses turns on the thyristors b and 7 and the power is supplied to the whole circuit. Thus, if the overload or short circuit is eliminated, the circuit self-restores, fails, the circuit generates, and the generation frequency determines the constant charging time of capacitive storage 26 through the limiting resistor 27. By selecting the nominal values of these elements, you can achieve a low frequency of generation of pulses opening thyristors 6 and 7, therefore the average value of the current during overload or short circuit is much less than the value of the current in the nominal mode, therefore, the power dissipated during eregruzke and short-circuit to be small. When a high voltage device emerges at the output of a high voltage device, the voltage device included in the voltage regulator 28 is activated to shunt the load and at the same time switch on the overload sensor 24 protective thyristor 22. The proposed intrinsically safe power supply is more reliable than the prototype and has the best load-up characteristic. Claim 1. An intrinsically safe source of constant stabilized voltage containing a half-wave rectifier connected to separate secondary windings of a power transformer and a two-wave controlled rectifier with two thyristors, the cathodes of which are combined, and the control circuits are connected to the output of the triggers. and a current limiter connected to the output of the full-wave controlled rectifier and connected in parallel to the output protective thyristor whose control electrode is via a zener diode. Connected to an overload sensor by a protected parameter included in the output source circuit, characterized in that, in order to increase reliability, a circuit consisting of series-connected diode connected in the forward direction is connected in series with a protective thyristor. in parallel with which are connected the power supply terminals of the trigger pulse generator, capacitive storage device, resistor, and half-wave rectifier. 2. A power source according to claim 1, characterized in that, in order to improve the load characteristic, the current limiter is designed as a diode-bypass diode. Sources of information taken into account in the examination: 1. USSR author's certificate number 263728, M. Kl.2 N 02J 1/04, 1970. 2. “Electron Design No. 14, 11, 1969, p. 4-59 (prototype). Svt