SU1534445A1 - Stabilized dc voltage source with inertia protection - Google Patents

Abstract

The invention relates to electrical engineering and may find application in power supply devices for electric motors or electronic equipment with complex transients. The purpose of the invention is to increase reliability by limiting inertial load inrush currents. The source contains a composite regulating transistor at the input 1 and output 2 transistors, current sensor 3 and control unit 4 at the compensating voltage regulator, the output of which is connected to the output transistor 2 through a temperature compensating diode. When switched on, the nominal load through time sets the capacitor 9 and the resistor 10 is given an opening signal to the base of the input transistor 1, limited by the zener diode 13. For the time of charging the capacitor 9 and the output to the mode of the integral stabilizer 4, the device operates according to the scheme parametric stabilizer compound transistor. After charging the capacitor 9, the transistor 1 is turned off and the built-in protection circuit of the integral stabilizer 4 is put into operation. When switched on, an inertial load (short circuit) for the charge time of the capacitor 9 opens the zener diode 12 through the open diode 15, and the device switches to the current stabilizer mode. In the process of charging the capacitor 9 and increasing the output voltage, the diode 15 and the Zener diode 12 are closed and the Zener diode 13 opens. The device starts to operate in the parametric stabilizer mode, and after charging the capacitor 9 it goes into nominal

Description

The invention relates to electrical engineering and may find application in power supply devices of electric motors or electronic equipment with complex transients.

The purpose of the invention is to increase reliability by limiting inertial load inrush currents.

The drawing shows a diagram of a stabilizing jq lysing source.

The source contains a composite control transistor sequentially connected to the power bus at the input 1 and output 2 transistors, the collectors 35 of which are connected to the input terminal, and a current sensor 3, a control unit on the compensation voltage stabilizer 4, the power leads of which are connected to the input terminal and the common bus 20 is not, a feedback input coupled respectively via a capacitor with a correction input and output of divider 5 the output voltage, the compensation output with ^m 4 sbilizatora conjugation HA 25 through voltage divider 6 * voltage is connected to a common bus and through a thermo-compensating diode, · to the base of the output transistor 2, the corresponding inputs of the protection of the compensation stabilizer 4 are connected to the output of the voltage divider 6 and through the anti-trigger diode 8 to the output terminal, one of the outputs of the timing capacitor 9 is connected to the input output and the other through the first resistor 10 - ^ 5 to the base of the input transistor 2 and through the second resistor 11 and the first zener diode 12 connected in series to the output terminal, the second zener diode 13 is connected between the common bus and the base Khodnev transistor 1 which is connected via a third resistor 14 and to the output terminal via the switching diode 15 to the junction of the second resistor 11 and the first zener diode 12.

A stabilizing source of constant voltage with inertial Protection in nominal load mode operates as follows.

At the initial moment, when the supply voltage is applied, the time-consuming capacitor 9 is charged along the circuit: positive supply voltage bus, E-capacitor 9, first resistor 10, second zener diode 13, common bus. In this case, the zener diode 13 limits the voltage at the base of the input transistor 1, and thus the output voltage of the parametric stabilizer (capacitor 9, resistor 10, zener diode 13, transistors 1 and 2) is at a certain (less than the nominal) for -.-. · given stabilization voltage of the Zener diode 13 level. Diode 7 is closed, excluding the influence of the base voltage from transistor 2 on stabilizer 4 that has not yet reached the mode. As the capacitor 9 charges, the current through it decreases. By this time, the compensation stabilizer 4 enters the mode, and a control voltage is formed on the eater, which is supplied through the diode 7 to the base of transistor 2, opening it even more, while transistor 1 closes with a higher voltage on the emitter relative to the base. At the output ’, a nominal output voltage is set, the value of which is determined by the divider 5 of the output voltage. The introduction of a nonlinear element by means of the on-switching of the p - η junction of the diode 7 into the base circuit of the output transistor 2 further reduces the temperature instability of the output voltage of the DC voltage stabilizer.

The DC voltage stabilizer with inertial protection in the short circuit mode when turned on works as follows.

When applying a supply voltage through the circuit: a positive supply voltage bus, resistors 10, 11 and 14, a zener diode 12, a timing capacitor 9 is charged. Transistor 1 opens for a time determined by the charge time of capacitor 9. Transistor 2 together with transistor 1, diode 15, current stabilizer, limiting the current through the load, the output transistor 2 and the current sensor 3. With a short circuit in the load, the voltage at the connection point of the resistors 10 and 14 and based on the transistor I becomes higher than the voltage at the connection point of the resistor 11 and the zener diode 12, while the diode 15 opens. The charge current of the capacitor 9 through the resistors 10 and 11 and the diode 15, the zener diode 13 enters the voltage stabilization mode by shunting the emitter junctions of transistors .1 and 2 through an open diode 15 and a current sensor 3,

1534 thereby limiting the current in the load at a given level. At this moment, the current through the stabilizer 13 is less than the minimum stabilization current, i.e. tense. Zener diode 13 is less than stabilization voltage. At the end of the charge of the capacitor 9, the current through the resistors 10 and 11 stops and the transistor 1 closes. The circuit goes into ₁ mode of limiting the short-circuit current in the load with the built-in protection circuit of the compensation stabilizer 4.

The stabilizing constant voltage source _} with inertial protection in the short circuit mode after the rated load works • similarly.

The invention provides a limitation of the output current during a short circuit in the load, eliminates the failure of the stabilizer elements during short-term or long-term 2 short-circuit modes or switching on to a braked motor or electronic circuit with large consumption currents at the moment of switching on.

Claims (1)

Claim A stabilizing DC voltage source with inertial protection, containing a composite control element and a current sensor connected in series to the power bus, the control element being made on the input and output transistors, the collectors of which are connected to the input output, the control unit is on a compensation voltage regulator com454 6, power leads which is connected to the input terminal and the common bus, the feedback input is connected to the output of the output voltage divider and through the capacitor to the correction input the output protection input of the compensation stabilizer is connected to the _e output of the voltage divider, the first output of which is connected to a common bus, characterized in that, in order to increase reliability by limiting the starting currents _{5 of the} inertial load, a time-setting capacitor, anti-trigger, switching and thermal compensation is introduced into it diodes, two zener diodes and three resistors, and the time-setting j capacitor is connected to the input terminal by one pin and the regulator element to the base of the input transistor by the other resistor and through the second resistor and the first zener diode connected in series to the output terminal, the base of the input transistor of the control element is connected respectively through the third resistor to the output terminal) through the second zener diode to the common bus and through the switching diode to the connection point of the first zener diode and the second resistor, the output compensation voltage stabilizer is connected to the second output of the voltage divider 5 and through a temperature compensating diode with the base of the output transistor of the control element, and the second input d protecting compensating the stabilizer-j through recuperators antitriggerny diode is connected to the output terminal.