SU845152A1 - Linear dc voltage or direct-current stabilizer - Google Patents

Description

A regulator node with a minus terminal of the auxiliary rectifier through a diode and a resistor connected to the base of the transistor of the DC amplifier of the feedback circuit, and the point of connection of the anode of the diode to the resistor through the capacitor is connected to the emitter of the transistor of the regulating node.

The drawing shows a diagram of the proposed stabilizer.

The stabilizer contains a regulating node on transistors 1 and 2, the control input of which is connected to the output of the DC amplifier 3 in the feedback circuit of the transistor, the source of the reference voltage. at Zener diode 4 and source 5 for powering feedback amplifier 3. The collector of the transistor 1 of the regulating node is connected to the base of the amplifier 3 at the transistor through a series-connected decoupling diode 6 and high-resistance resistor 7, and the common connection point is connected to the emitter of transistor 1 through the filter capacitor 8. The output of the regulating node is connected via an auxiliary rectifier 9. to the ends of the primary windings, a three-phase power transformer 10, the beginnings of the secondary windings of which are connected to the input of a style rectifier 11, the output of which, for example through filter 12, is the output of the stabilizer. When used as a voltage stabilizer, the feedback voltage is removed from the output of the stabilizer and through the isolating converter 13 and the feedback amplifier 3 with the reference voltage source is applied to the control input of the regulating unit. When using the stabilizer as a current stabilizer, the feedback voltage is removed from the load current sensor 14 (shown by the dotted line).

The output voltage is stabilized as follows. With increasing Ug {,, y. The feedback voltage increases. The t.sub.t transistor of the feedback amplifier 3 is closed, and the transistors 1.2 of the control unit are closed, reducing the voltage on the primary windings of the transformer 10, which leads to a decrease in the output voltage Ug (,) x.

When decreasing and „..., occurs

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reverse stabilization process. U recovery

before the initial

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the value occurs with an accuracy determined by the stabilizer stabilization factor. The presence of a converter 13 in the feedback circuit leads to a significant instability of Ug (, i4. From a change in the network and the load resistance. For compensation

the instability of the Ug due to the change in the network and the load resistance without increasing the pulsations at the output of the stabilizer are used by the coupling diode b, the resistor 7 and the capacitor 8.

The instability compensation is carried out as follows. Suppose that the voltage Ug of the network has increased, has increased and has increased and the transistor of amplifier 3 has slightly opened, and transistors 1 and 2 are closed, the voltage on these transistors has increased. The voltage source and the transistor 1 are connected in series with the stabilized source 5 (i.e. + transistor 1 is connected to - source 5). The sum of these voltages affects the base-emitter transition of the transistor amplifier 3, As the voltage U, transistor 1 increases, this leads to an additional opening of the amplifier 3 of the transistor and the closure of transistors 1,2. Thus, by the voltage of the transistor 1 together with the source 5, the effect of 5 on the transition Ug-. the transistor of the amplifier 3, compensates for the instability Ug (, x from the change and load resistance, since the voltage of the transistor 1 varies accordingly from the change of the one and the other. By selecting the value of the resistor 7, you can provide overcompensation, i.e. and decreasing the load resistance will increase and vice versa.

Since the voltage of transistor 1 is pulsating in nature, simply connecting the collector of transistor 1 through E eistor 7 to the base of the transistor amplifier 3 leads to a sharp increase in Uemx ripple.

, To eliminate this, the decoupling diode 6 and the capacitor V are used. The application of this circuit allows one to fully compensate for the instability of Ugf from the change and the resistance of the load in the range in which transistor 1 operates in a linear region. Such an instability compensation circuit can also be applied in current stabilizers when the feedback voltage is removed from the current sensor 14.

Claims (2)

The proposed stabilizer, having a relatively simple electrical circuit, has high characteristics, so the total voltage (current) instability, taking into account all destabilizing factors, including when the load resistance changes by ± 30% and the output voltage by t 10% does not exceed 0, 3% at output voltage of 5 V and DC. 120 A. A jfierKO voltage stabilizer can be transformed into a current regulator / cn into a feedback voltage from a current sensor (for example, from shunts included in the zero phase of the secondary windings of a power transformer). The stabilizer circuit provides a high stability of the output voltage, without increasing the ripple of the rectified current and, when used in galvanic production, improves the accuracy of dimensional chromium plating. Claims of the invention A linear voltage or current regulator containing a three-phase power transformer, the beginnings of whose secondary windings are connected to a power rectifier input, and the ends of the primary windings are connected via an auxiliary rectifier to the output of a transistor regulating node, the control input which is connected to the output dc dcww4 dc transistor amplifier SOFTWARE, including also the source of the reference voltage and the dividing converter, characterized in that, in order to reduce the instability of the output voltage from a change in the network voltage and the load resistance, Yucca connects the collector of the transistor of the regulating node with a minus output of the auxiliary rectifier A diode and a resistor connected in series, connected to the base of the transistor of the DC amplifier of the feedback circuit, and a point connecting the diode to the resistor through a condensate p, is connected to the emitter of transistor regulating unit. Sources of information taken into account in the examination 1.Karpov V.I. Semiconductor voltage and current stabilizers. M., Energy; 1967, p. 42-44. 2. Information sheet 73-0276, IL-12-11. 73-0276 / K 1/1007 of the All-Union Scientific Research Institute of Inter-Industry Information.