SU987606A2 - Dc voltage stabilizer - Google Patents

Description

(54) CONSTANT VOLTAGE STABILIZER

The invention relates to electrical engineering and can be used in secondary power sources. According to the main author. St. No. 702364 is known for a DC voltage regulator containing a regulating element connected to one of the power buses, a feedback amplifier, an output connected to the control input of the regulating element, one input to the output resistive voltage divider connected to the output of the stabilizer. and the other input through the source of the reference voltage is connected to the common bus, an additional transistor and a resistor, with an additional resistor being included in the common bus break between the input side of the stabilizer and the source the reference voltage, the emitter-base junction of the additional transistor is connected in parallel to the additional resistor, and the additional transistor collector is an additionally inserted parallel circuit from the resistor and capacitor connected to the output of the resistive divider of the output voltage El3. A disadvantage of the known stabilizer is the low quality of the line voltage due to the large ripple of the output voltage. The purpose of the invention is to reduce the output voltage ripple. The goal is achieved by introducing a voltage divider on the resistors, a second additional transistor and an RC chain consisting of parallel-connected resistors and a capacitor, and a voltage divider on the resistors connected to the DC voltage regulator. one end to the minus input bus, the other to the positive input or output bus, and its middle point to the base of the second additional transistor connected to the negative output L bus by an emitter, and the collector through the RC chain to the regulating transistor base.

FIG. 1 shows a basic electrical stabilizer circuit; in fig. 2 - stress plots showing the principle of operation.

The constant voltage regulator (Fig. 1) contains a regulating transistor 1, a feedback amplifier 2 with a source of reference voltage 3, connected by an output to the input of a regulating transistor 1, and an input to the middle point of the resistor 4 and 5, the extreme taps of which are connected to the output of the stabilizer, a resistor 6 connected to the negative common bus, a transistor 7 connected by an emitter-base junction parallel to the resistor 6, and a collector through a parallel connected resistor 8 and a capacitor 9 to the output One voltage divider on resistors 4 and 5, additionally introduced voltage divider on resistors 1O and 11 connected to the input of the stabilizer, and the midpoint to the base of the additional transistor 12, the collector connected through the RGclock 13 and 14 to the base of the regulating transistor.

The device works as follows.

When the load is connected to the stabilizer for the time tm (Fig. 2.01) at the beginning of the pulse, a dip is formed in the output voltage U, and at the end of the pulse a voltage surge caused by the inertia of the stabilizer circuits. For

eliminating failures and surges in the output voltage uses a chain consisting of a divider 11 and 12 of transistor 12 and an RG chain 13 and 14. Transistor 12 plays the role of a key that connects chain 13 and 14 between the base of transistor 1 and the minus when The impulse load is removed and disconnected at the time of the load. The capacitor 13 and the transistor 1 in the absence of an IMI pulse are additionally a transistor filter and the voltage at the output of the stabilizer will be determined by the form of the voltage across the capacitor. Resistor 14 partially discharges condensate

the capacitor 13 is by a small amount equal to the difference of the base-emitter junction voltage (U jg) of the transistor 1 at idle and load. Completely eliminate dips and emissions fails. In the form of the output voltage (Fig. 2B), the failure and surge of the duration of the units of the ISS remain, which is determined by the frequency properties of the stabilizer transistors. The magnitude of the voltage dip and surge is not more than (1.0-1.5) V | (measured at output voltage 48V, load pulse 9A).

Thus, the introduction of additional elements significantly speeds up the transient processes during loading and dumping, for example, but by 2-3 times, as well as reducing the value of the variable component in the form of output voltage by 3-4 times. As a result, this improves the shape of the output voltage, increases its quality and the quality of its products, in which it is used as a source of power for electronic devices.

Claims (1)

1. USSR author's certificate No. 702364, cl. G About F 1/56, 1978.