SU800983A1 - Dc voltage stabilizer - Google Patents

Description

(54) CONSTANT VOLTAGE STABILIZER

a resistor and a zener diode and a pulse generator, and the power circuit of the key element is connected between the other output of the current supplying element and the common bus, and its control electrode is connected through a circuit of series-connected resistor and zener diode to the collector of the power transistor and with the output-pulse generator turned on between input and output.

The drawing shows a structural electrical circuit of a DC voltage stabilizer.

(The DC stabilizer contains a power transistor 1, a matching transistor 2, the control circuit of which is connected to the output of the comparison unit 3 connected to the output terminals for connecting the load 4, diode 5 connected in the forward direction between the regulator collector 1 and the emitter of the matching transistor 2, the current supply element b, connected in series with the diode 5, the key element 7, the force circuit of which is connected between the current supply element b and the common bus of the stabilizer, and its control electrode is chain of series connected resistor 8 and 9 stabilitroya connected to the collector of the power transistor and the output of the pulse generator 10, connected between the input terminals.

The constant voltage stabilizer operates as follows.

When the stabilizer is turned on, a constant unstabilized voltage appears on the pulse generator 10 and on the power transistor 1. The latter is locked because the key element 7 is in closed state due to the absence of an open voltage on its control electrode. After Zschchennoe time to the output of the pulse generator 10, a pulse of a certain duration appears. The time of occurrence of the first and after impulses and their duration are set by special time of the circuits in the impulse generator 10. This impulse goes to the control electrode of the key element 7, which for a time equal to the duration of the triggering impulse connects the current-generating element 6 to the common bus stabilizer. In this case, a current appears in the emitter circuits of the matching transistor 2, the base and the collector of the anzistor 1, which is limited in magnitude and is set by the current supply element 6. Depending on the nature of the stabilizer load, two modes of its activation are possible. "

The first mode of activation with active and inductively active loads.

current in which does not exceed the maximum allowable current stabilizer. The stabilizer is switched on immediately after the first pulse of the pulse generator 10. A predetermined voltage appears at load 4. At the same time, the control 5 electrode of the key element 7 through the resistor 8 and the zener diode 9 receives the voltage from the output of the stabilizer, which maintains the key element 7 in the open state. Zener diode 9

0 is selected from the condition that at a given voltage at the output of the stabilizer it is in the conducting state.

The second mode is when the capacitive nature of the nagruaki. The inclusion of a stabilizer is somewhat different from that described above. After supplying the first unlocking pulse to the control unit from the pulse generator 10

The Q electrode of the key element 7 current in the load circuit 4 exceeds the maximum allowed. In this case, the voltage at the output of the stabilizer does not reach the value required for the breakdown of the zener diode 9, and the stabilizer will immediately turn on. Periodically restarting, it is possible to charge the load capacitance in portions up to a voltage higher than the breakdown voltage of Zener diode 9, after which the stabilizer turns on. However, when the control transistor 1 is closed, the load capacitance 4 is discharged to its active component and Yes, the capacitor is equal to or less than the portion of its discharge and the stabilizer cannot turn on. In this case, the possibility should be provided in the pulse generator 10 for manual or automatic topical adjustment of the duration or repetition frequency of the output pulses.

The proposed implementation of cx & jsa allows for improved stabilizer protection.

5 from short-term and long-term overcurrent and short-circuits at the output, make a smooth connection with the capacitive nature of the load, increase safety and provide automatic switching on by limiting and then reducing the current of the composite transistor.

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Claims (1)

1. USSR author's certificate 0 No. 547754, Cl, G 05 P 1/58, 1975. 2, USSR Author's Certificate No. 589606, cl. G 05 F 1/58, 1976. 0