SU978125A1 - Dc voltage stabilizer - Google Patents

Description

The invention relates to electrical engineering and can be used to power electronic equipment.

A DC voltage regulator is known, comprising a regulating element, a control circuit, a current sensor and a current signal amplifier.

The disadvantage of the known device is. This is that at the moment when the stabilizer is turned on, the starting current, limited by the organ of protection, will be higher than the nominal value.

The closest in its technical essence to the proposed is a DC voltage regulator containing a serial regulating element, a control unit connected by its output to the control input of the regulating element, an output filter, a current sensor connected to one of the 1 pin power and connected the output to the DC amplifier, and the other to the reference voltage divider, the middle output of which is connected to the input of the specified DC amplifier, the output of which is connected to the blocking its input control unit 2.

A disadvantage of the known device is that during start-up modes, when the capacitor of the output filter is charged, the current through the regulating element exceeds the rated one several times and, if there is voltage on it, causes i significant power dissipation on the regulating element, which can lead to secondary breakdown last. This reduces the reliability of the stabilizer.

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

The goal is achieved by the fact that a capacitor, an additional DC amplifier, and a voltage divider, which are connected to the corresponding terminals of the reference divider by one lead, are introduced into the DC voltage regulator.

25 voltage and current sensor, and the other output terminal through a capacitor with a corresponding input power output, and an additional DC amplifier is connected to its own input and

30 output to the average conclusions, respectively, of the voltage divider and the reference voltage divider.

The drawing shows the scheme of the proposed DC voltage regulator.

The stabilizer contains a series regulating element 1, a surge filter .. 2, a control unit 3, a current sensor 4, a DC amplifier 5, a voltage reference divider 6, an additional amplifier 7 along

-constant current, voltage divider 8 and capacitor 9.

The stabilizer works as follows.

In the operating mode, the load current flowing through the current sensor 4 creates a voltage drop, which is compared with the voltage of the reference voltage divider 6. At the rated load current, the voltage drop is such that the transistor of the DC amplifier 5 is open and does not act through the control unit 3 on the regulating element 1. As the load current increases above the allowable value, the voltage drop on the current sensor 4 becomes greater than the voltage generated by the reference divide. 6. In this case, the transistor of the signal amplifier 5 is locked and, through the control unit 3, I influence

regulatory element 1, puts the stabilizer in the current stabilization mode. After removing the overload, the stabilizer reverts to voltage stabilization mode. Thus, the magnitude of the permissible current nejierpyaki is determined by the magnitude of the reference voltage of the divider b. When the stabilizer turns on, the charging current of the capacitor 9, the flow through the divider 8 opens the transistor of the amplifier 7, while the output resistance of the amplifier 7 changes the value of the reference voltage of the divider so that the amplifier 5 puts the stabilizer in the current stabilization mode at current values load current. As the capacitor 9 is charged, the transistor of the amplifier 7 starts to shut down, as a result of which the voltage of the divider b grows. Accordingly, the amplifier 5 switches the stabilizer to the stabilization mode of the increased current.

The duration of the stabilizer output to the operating mode is determined by the divider 8 and the capacitor 9. After charging the capacitor 9, the amplifier 7 does not participate in the stabilizer work. Thus, the reliability of the proposed voltage regulator is improved, since the starting current and the instantaneous power are limited to an acceptable level.

Claims (2)

1. Dodik S.D. et al. Power supplies on semiconductor devices. Design and calculation. M., Sov.radio, 1969, p.323. 2. Agapov M.V. and Pihuta AV Electric protection of semiconductor power sources .. Owls. radio, M.j 1966, p.110, rice, 70.