SU767738A1 - D-c voltage stabilizer - Google Patents

Description

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The invention relates to electrical engineering. And / is intended for power supply of various radio equipment.

A DC voltage regulator is known, which contains a node on the transistor, the conductivity of which is opposite to that of the regulating transistor, with a linear | Q and a. nonlinear output voltage divider, start-up circuit and protective node R-3. The technical solution closest to the invention is the tS direct current voltage linker containing a control transistor connected to one of the power lines, the emitter of which is connected to one of the input terminals and the collector through a compensating resistor with one of the output pins, an output voltage divider, an output connected to the base of the amplifying transistor, the collector of which 25 is connected to the base of the control transistor, and the emitter is connected to the output of a voltage source, with one of the inputs of the output voltage divider and the voltage source being connected to a common bus 2.

In the known stabilizers, the instability of the output voltage at full and medium loads is significantly reduced by the introduction of additional current feedback. However, at low load currents, the instability increases dramatically, which is a result of the significant influence of the starting resistor. In addition, due to the compromise selection of the resistance value of the starting resistor, depending on the set value of the stabilization of the output voltage and the maximum operating current of the stabilizer, the known stabilizer has a low starting reliability.

The aim of the invention is to improve the quality of stabilization and stabilizer launch.

This goal is achieved by the fact that a DC voltage regulator containing a control transistor included in one of the busbars, the emitter of which is connected to one of the input pins, and the collector through a compensating resistor with it, is divided.

 output output coil

 yo) a key to the base usiiteliOgb

transistor, the collector of which is connected to the bazryr regulator) transistor, and the emitter is connected to the output of the reference voltage source,

one of. the inputs of the output voltage divider and the source of the reference voltage are connected to a common bus,

YESHCHESH Even s |) g and capacitor /. resistor, with one capacitor electrode connected to the emulator of the regulating transistor, and the other through the first two of the printed diodes to the corresponding second inputs of the output divider

The third-party reference cable, which is connected through the third and fourth diodes in parallel to the compensating resistor. .::, /, PryytsyYaLiBV electrical diagram of the stabilizer, the DC voltage is shown in the drawing.

  The stabilizer contains a regulating transistor 1, of which one is not one of the input pins, and the collector through a compensating resistor 2 is with ONE of the INPUTS, a divider of the initial voltage on the resistors 3,4,5, the output of the UK base base; Ylte 1BN (: g) F Shgarastora 6, the collector of which is connected to the base of the regulating transistor,

and the emitter is connected to the UK source of power on a 7-channel and resistors 8.9, a parallel circuit of resistor 10 and a capacitor 11 connected to the emitter at one end

control transistor 1, and the other through diode 12 to one of the inputs of the divider resistors 3,4,5, and through diode 13 to one of the inputs

the reference voltage source, the same inputs of the divider and the source of the reference voltage, respectively, via the diodes 14 and 15 ps | Connected in parallel with the compensating resistor 2, and the other inputs to the common bus. At the input of the stabilizer is connected to the input capacitor 16 ,,

Transistors 1 and 6 can be any, but preference should be given to silicon transistors, in which the reverse currents of collector junctions do not degrade the parameters of the stabilizer, which is a consequence of the small magnitude of these currents, compared to the reverse currents of germanium transistors, in which they are large. .

The value of the variable resistor 3 and the limiting resistors 4 and. 5, the linear delimiter of the output voltage determines the limits of regulation of the output voltage stable; Tora .... 1 ....,: „... ...... .. ..., -.............

Selection of resistances of resistors 8, - 9 b rayichon7maksymayb doyuyoimimaM with a working current of the supporting stabilizer

7, as well as the limits of the current control. The input capacitor 16. The stabilizer is designed for the maximum possible voltage at the input of the stabilizer and has a capacity that provides a given level of ripple at the input of the stabilizer. The magnitude of the resistor 2 Current feedback selected current conditions for ensuring maximum stabilization of the output voltage at the maximum operating current of the stabilizer. . . .

Additional diodes 14, 15 are calculated. They are the current, which passes through the output voltage divider and the source of the reference voltage, respectively. ,

The duration of the starting impulse is set by the capacitor II. The additional series of the charging circuit and the total resistance of the parallel-connected output voltage divider and source of the secondary voltage st. . The resistance value of the additional resistor 10 is determined by the selection. . rum constant discharge time of the capacitor 11, which should be chosen large enough to be. exclude the effect of this circuit on the filtering of the output voltage, and at the same time is sufficiently small so that the stabilizer is ready for subsequent switching on. This is easy to do.

Stabil or operating as follows. . -.

.When a stabilizer of an unstabilized input voltage is input to the input terminals, the input capacitor 16 is charged directly and the capacitor 11 is charged through the output voltage divider and the source of the reference voltage, aided by additional diodes 14.15, except-. causing the charging current to flow through the capacitor 11 through the stabilizer load (at the initial switch on point; TrisTor b closed1T. Then, as the charge current of the capacitor 11 decreases, the corresponding voltage at the output voltage divider and reference source voltage, creates an unlocking potential at the emitter junction of transistor b, as a result of which the regulating transistor 1 and transistor str b are opened. From this moment, the stabilizer feedback circuit comes into effect and at its output The nominal output voltage is maintained. The capacitor 11 is thus charged to the maximum value of separation, input and output voltage of the stabilizer, since the resistance of the resistor 10 is high. This excludes the input voltage ripple

Claims (1)

Claim A voltage stabilizer, DC, containing a control transistor included in one of the power buses, the emitter of which is connected to one of the input terminals, and the collector through a compensating resistor to one of the output terminals, an output voltage divider connected to the base of the amplifying transistor, the collector of which connected to the base of the control transistor, and the emitter to the output of the reference voltage source, and one of the inputs of the output voltage divider AND the reference voltage source is connected to bus, characterized in that, in order to improve the quality of stabilization and start of the stabilizer, four diodes and a capacitor shunted by a resistor are introduced into it, moreover, one capacitor electrode is connected to the emitter of the control transistor, and the other through the first two of these diodes with the corresponding the second inputs of the output voltage divider and the reference voltage source, which are connected in parallel with the compensating resistor through the third and fourth diodes.