SU1423991A1 - Voltage stabilizer - Google Patents

Abstract

The invention relates to electrical engineering and can be used to power electronic equipment. The goal is to reduce the dynamic current overloads of the regulator and simplify the device. When the device is turned on, a regulating element 1 flows a current limited by the current source at the transistor 8. After the output voltage rises to the nominal value, the error amplifier at the transistor 9 turns on and the stabilizer goes into linear mode. In the case of a short circuit in the load, the error amplifier at the transistor 9 is turned off and the device switches to the output current limiting mode, which is determined by the current source and the voltage source 2. 1 ep f-ly, 1 ill. (/)

Description

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The invention relates to an electrolytic and can be used to supply stabilized constant voltage to various computing devices and other electronic equipment.

 The purpose of the invention is to reduce the dynamic current overloads of the regulator and simplify the device.

The drawing is a schematic diagram of the device.

The device contains an integral regulating element 1 connected in series to the power bus, an auxiliary source 2 of the reference voltage at the input, an output capacitor 3 at the output, a divider 4 of the output voltage, the output of which is connected to the input of the first stage 5 of the error amplifier connected to the output through separation diode 6 to its collector resistor 7 and to the emitter of the transistor 8 of the second stage of the error amplifier, the base of which is connected to the output of the auxiliary source 2 of the reference voltage, and the collector is connected to composite control element 1,

The first stage 5 of the error amplifier contains a transistor 9, the emitter of which is connected to the stabilizer 10 and the resistor 11, the base of the transistor 9 being used as the input terminal of the first stage of the error amplifier, the collector - as its output terminal, and the free input: Zener diode 10 and resistor 11 - as its power leads.

Composite control element 1 comprises a power transistor 12 and a matching transistor 13. The voltage source may include a resistor 14, a zener diode 15 and a voltage divider 16, the output of which may be the output of the source 2o. The point of application of the voltage control Uynp, with which you can remotely control the inclusion of the stabilizer.

The voltage regulator operates as follows.

When a stabilizer of the input voltage Uj is fed to the input at the output of auxiliary source 2, a stable voltage appears, which arrives at the base of the transistor, 8 w -

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misalignment amplifier cascade, opens it, and that, in turn, opens composite regulating element 1. At the same time, current flowing through regulating element 1 charges the capacitor 3. Since the output voltage Ug is low at the moment of charging of the capacitor 3, the voltage across the divider 4 is not enough to open the transistor 9 of the first stage 5 of the error amplifier. Therefore, the voltage at the output of the first stage 5 is low and, since the separation diode 6 is in a non-conducting state at this time, the transistor 8 is disconnected from the cascade 5, i.e. The transistor 8 is at this time in the stable current generator mode, and the composite regulating element operates as a stable current amplifier with a current gain equal to the product of the current transfer coefficients of the transistors, which constituted the regulating element 1, therefore, up to the point in time when the output voltage living u

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reaches a level sufficient to open the transistor 9, the output capacitor 3 is charged with the stabilized currents of the open composite regulating element 1. At the same time, an unacceptable current jump during the charging of the capacitor 3 during the device startup period and dynamic changes of the load current is prevented. When the calculated charging current of the capacitor 3 is less than the maximum permissible current of the regulating element 1, the possibility of overloading the latter is excluded. When the capacitor 3 is charged to a level close to the nominal value of the output voltage Ugjix, the device enters the output voltage stabilization mode: the first stage 5 of the error amplifier, which is dependent on the voltage level at the output of the output divider 4, changes through the separating diode 6, which has passed to the conducting state, the voltage on the collector resistor 7. In this case, the voltage on the base-emitting junction of the transistor 8 changes, and therefore its collection changes (

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element 1, the compensator has changed the output voltage.

When the device is turned on again, all processes are repeated; the output capacitor is charged to the nominal value with a stabilized current, after which the output voltage is stabilized by the action of two stages of the feedback amplifier - the first stage 5 and the second stage on the transistor 8. Thus, in this device, to ensure the current limit is not required special nodes, which greatly simplifies the stabilizer circuit, in addition, the switching current is limited in this stabilizer efficiently and with a series of re-inclusions with the minimum and interval.

The stabilizer has an additional advantage - no need for overcurrent protection.

In the overloaded mode, a decrease in the output voltage leads to the transition of the transistor 9 to the cut-off mode, after which the first stage 5 does not affect the operation of transistor 8 and the transistor 8 switches to the stable current generator mode, which means the regulating current. element 1 is practically stabilized and does not exceed a predetermined value.

Fore. a mule of the invention 1. A voltage stabilizer containing a source of reference voltage connected to the input terminals, co

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a regulating element connected in series to the power bus, an output capacitor, a first stage amplifier of the error amplifier at the transistor with a collector resistor, a second stage of the error amplifier at the transistor whose collector is connected to the control input of the regulating element, and the base of the transistor of the first stage of the error amplifier is connected to an output voltage divider, characterized in that, in order to increase reliability by reducing the dynamic current overloads of the composite regulating element and simplification, a separation diode is inserted into it, the base of the transistor of the second stage of the error amplifier is connected to the voltage source of the reference voltage, and the emitter is connected via the collector resistor to the common bus and through the separation diode to the collector of the first stage of the error amplifier.

2. Voltage stabilizer according to claim 1, characterized in that a resistor and a zener diode are inserted into the first stage of the error amplifier at the transistor, the emitter is connected to the first terminals of the resistor and the zener diode, the second output of the resistor is connected to the common bus, and the second output of the zener diode is connected to the output terminal, the base of the transistor is connected to the output of the output voltage divider, and the collector is connected to the collector resistor through an isolating diode.

Claims (2)

Claim 1. The voltage stabilizer contains. _/ jagia reference voltage source connected to the input terminals, a constituent control element connected in series to the power bus, output capacitor, the first stage of the mismatch amplifier on the transistor with a collector resistor, the second stage of the mismatch amplifier on the transistor, the collector, which is connected to the control input of the regulating element, and the base of the transistor of the first stage of the mismatch amplifier is connected to the output of the output voltage divider, characterized in that, in order to increase by by reducing the dynamic current overloads of the composite control element and simplifying, an isolation diode is introduced into it, and the base of the transistor of the second stage of the mismatch amplifier is connected to the output of the reference voltage source, and the emitter is connected through a collector resistor to a common bus and through a separation diode to the collector of the transistor of the first mismatch amplifier stage. 2. The voltage stabilizer according to claim 1, characterized in that a resistor and a zener diode are introduced into the first stage of the mismatch amplifier on the transistor, the emitter being connected to the first terminals of the resistor and the zener diode, the second terminal of the resistor connected to a common bus, and the second terminal of the zener diode to the output conclusion, the base of the transistor is connected to the output of the output voltage divider, and the collector through the diode diode is connected to the collector resistor.