SU648964A1 - Pulsed dc low-voltage stabilizer - Google Patents

Description

(54) LOW VOLTAGE PULSE CONSTANT VOLTAGE STABILIZER

The invention is intended for use in semiconductor industrial automation devices for various purposes, in particular in power supply units with redundancy of semiconductor logic elements of the Logic-T series and integrated circuits in discrete systems circuits, which by virtue of their functions are designed in such a way that they do not allow even a brief interruption in the diet.

A low-voltage voltage regulator is known with a series regulating element on a composite transistor with a single-stage error amplifier. A silicon stabiliter powered by an auxiliary filter pad connected to the output of the auxiliary winding of a power transformer is used to obtain the reference switch. Power error amplifier is fed from another auxiliary rectifier with filter ij.

However, such a stabilizer has a low transmission rate, since the regulating element operates in a continuous control mode, and a low stabilization factor, since the power supply to the error amplifier is performed by unstabilized voltage.

The closest in technical essence to the proposed is

low-voltage switching voltage regulator containing voltages connected in series between the terminals for connection to the supply source and the terminals for connection

load control transistor on the L CO-filter, error signal amplifier, made on the transistor, the emitter of which is connected to the common surface, and the base is connected to the output of a resistive voltage divider, through a zener diode connected to the terminals for connecting the load, bypassing the ballast unit 2.

The disadvantage of this stabilizer is that the use of such a circuit in the standby mode also requires three isolated sources, in addition to the output of the stabilizer a ballast resistor is included that ensures stable operation of the stabilizer at low load currents, which drastically reduces the efficiency of the stabilizer.

The aim of the invention is to increase the stabilization checkpoint and simplify its design.

This is achieved by the fact that in the proposed low-voltage impulse regulator a constant voltage & n containing voltages connected in series between the leads for connecting to the supply source and the leads for switching the load, the control transistor and the IOS signal, the error signal amplifier performed on the transistor emitter connected to the common bus, and the base is connected to the output of the rheistive voltage divider, through a zener diode connected to the terminals for connecting the load, bypass ballast, score The battery unit is designed as a two-stroke DC / DC transistor converter, the output transformer of which is equipped with two secondary windings. Moreover, each of the windings is connected to a corresponding half-wave rectifier with a filter, the output of the first one of the rectifiers with a phylan through a resistor is connected between the Zener diode and the common bus, and the output of the second rectifier with a filter through a parametric stabilizer unit is connected to the power supply circuit of the error signal amplifier.

The drawing shows a schematic diagram of the proposed low-voltage pulse stabilizer.

The plus source bus is connected to the cathode of filter diode 1, through a resistor 2 to a timing capacitor 3, an emitter of a transistor 4 error amplifier, a capacitor 5 of the output fnlgr, and a receiver of transistors 6 and 7 of the ballast block, through a resistor with a midpoint of the base winding of the transformer of the ballast block, the anode of the Zener diode 9 and the filter capacitor 10 standard, the output of the secondary winding 11 of the transformer ballast block, the second output which through

the anode-cathode of the rectifying base 12 and the resistor 13 are connected to the cathode of the Zener diode 9. At the connection point of the rectifying diode 12 and the resistor 13, the filter capacitor 10 is connected with a positive pole.

The source minus terminal is connected to the collectors of the control transistor 14 and the transistor 15 of the corrugation circuit. The emitter of the transistor 14 is connected to the anode of the filter diode 1 and to the output of the main winding 16 of the choke of the filter 17 connected by another output to the clock capacitor 3 and to the cathode of the zener diode 18, which is connected to the cathode via series-connected resistors 19, 20, 21 a zener diode 9 and a capacitor 22. One plate of the latter is connected to the secondary winding 23, and the other is connected to the midpoint of a series of diode 24 and a ballast resistor 25, the other output of which is connected to the anode Litron 18 and to one of the terminals of resistor 26, the other terminal of which is connected to the collector of transistor 4 and the base of transistor 15. The emitter of transistor 15 is connected to the output of additional winding 27 of the droplets of filter 17, the other side of which is connected to the base of control transistor 14. The base of transistor 4 is connected with a resistor of 20.

The stabilizer works as follows.

Claims (2)

When voltage is applied to the input of the stabilizer, a load current flows through the emitter-collector of the control transistor 14 and the winding 16 of the throttling fily 17. A load current also flows in the winding of 27 droplets of filter 17, while a winding of 27 droplets of a filyr is induced by an EDC which causes current to flow through a coil of 27 droplets of a filter, a capacitor 3, an emitter junction of a transistor 14, a winding of 27 droplets of a filter. As a result, the capacitor 3 is charged, keeping the transistor 14 in the open state, and a voltage appears at the input of the stator. A static voltage converter is started and a rectangular alternating voltage appears on the secondary windings of its transformer. From the winding 23, the alternating voltage is alternated by the diode 24 smoothed by the capacitor 22, stabilized by a perimetric stabilizing unit including the ballast resistor 25 and the zener diode 18, and, adding to the output voltage of the pulse stabilizer, goes through the resistor 26 to the error amplifier transistor collector 4, ensuring its nutrition. From the secondary winding 11 of the transformer, the alternating voltage is alternated by diode 12, smoothed by capacitor H and fed to the zener diode 9. The input of the fault amplifier of transistor 4 receives the voltage from the resistive divider of the comparison circuit, the state of transistor 4, which in turn determines the state of the transistor 15 and the high resistance of the emitter-collector junction of this transistor. As the capacitor 3 charges, the base current of the transistor 14 decreases and, at a certain value, the transistor 14 goes into cut-off mode, and the EMF of the additional winding 27 droplets of the filter 17 changes sign, as a result of which the positive coil from the winding 27 drops to the base of the transistor 14 offset that closes it securely. The voltage at the output of the stabilizer is kept constant due to the energy of the output L CD filter of the pulse stabilizer consisting of capacitor 5, droplets of filter 17 and diode 1. Under the action of an emf of winding 27 of droplets of filter 17, the capacitor recharges 3 and when the value put) the base of the transistor 14 becomes zero, it avalanche goes into the open state, then the whole cycle repeats the Durability and the average value of the voltage at the output of the stabilizer are determined by the resistance value n Passing the emitter-collector of transistor 15, operating in the linear regime With increasing voltage at the output of stabilizer increases an error signal which is amplified Transistor rum 4 and received at input transistor 15, covers it. This contributes to an increase in the resistance of its emitter-collector transition, a decrease in the charging time of the capacitor 3, and consequently, the open time of the transistor 14. As a result, the voltage at the output of the pulse stabilizer decreases to the set one. When the voltage at the output of the stabilizer decreases, the magnitude of the error error decreases, the transistor 15 opens, which reduces the transition resistance of its emitter-collector and increases the charging time of the capacitor 3 and the open state of the transistor 14, the voltage at the output of the stabilizer increases to the set one. In this way, the voltage is stabilized at the output of the stabilizer. Low Voltage DC Pulse Stabilizer Containing Included in Series Between Leads for Connecting to a Power Supply and Leads for Connecting a Load Regulating Transistor and LCD Filter, Error Signal Amplifier, Complete with a Transistor, the Emitter of which is Connected to a Common Bus, and the Base connected to the output of a resistive voltage divider, through a Zener diode connected to the terminals for connecting the load, a shunting ballast block, characterized in that With higher efficiency and simplification of the stabilizer circuit, the ballast unit is filled with a two-way constant-to-constant-voltage transistor converter, the output transformer of which is equipped with two secondary windings, each of the windings connected to a corresponding single-wavelength converter with a socket. A mitepey with a filter is connected through a resistor between the Zener diode and a common bus through a filter, and the output of the second switch with a filter through a parametric stabilizing unit connected to the power circuit of the error signal amplifier. Sources of information taken into account in examination 1, Karpov V. I. Semiconductor voltage and current compensation stabilizers. M., 1967, p. 96 2. Branch catalog Power supply units for the elements of the Logika-T series, Informelectro, 1975. .Au P H T ABOUT 7 " 2425 : g-u i6 -i- ff (F