SU670928A1 - Switch-type dc voltage stabilizer - Google Patents

Description

The current is shown in the drawing. The stabilizer contains a control transistor 1 connected in the power bus in series 1, a turning regulator 2 and an amplifying 3 transistors, and with an external base and switches to the divider 4 of the output voltage, an onenary Zener diode 5, one of the terminals of which through a resistor 6 is connected to the output terminal 7, smoothing the LDC- filter 8, protection transistor 9, the emitter of which is connected to common nshnoy 10, collector through resistor 11 to base of control transistor 1, and base to other output of onenary zener diode 5. Between base of transistor 9 and starting cond nsatorom 12 included a current limiting resistor 13.

The stabilizer works as follows.

During normal operation, protection transistor 9 is open, and unlocking voltage is applied to the non-transition emitter-base of the last one. The base current of the transistor 9 is flowing through the circuit: output terminal 7, resistor b, reference zener diode 5, base-emitter junction of transistor 9, common 10. This current is at the same time the current of the zener diode. When an overload occurs, the output voltage of the stabilizer decreases to the value where the current of the Zener diode 5 becomes so small that it can not keep the transistor 9 in a saturated state and the latter closes, closing the regulator transistor 1 in turn. nada to zero. In order to turn on the stabilizer again, it is necessary to eliminate the fault and turn on the supply voltage again. A resistor 13 connected in series with a starting capacitor 12 is designed to limit the base current of transistor 9 at the time of the output voltage. The sensitivity of the stabilizer protection is determined by the reference voltage resulting from the stabilization voltage of the reference zener diode on the voltage drop across the base-emitter junction of transistor 9. And in a prototype, to ensure normal operation, the base potential of the protection transistor is always greater than the potential of the emitter, and the base potential of the protection transistor is equal voltage stabilization zener diode. The protection triggered sensitivity here is determined by the output voltage, at which the difference between the base potential and the emitter potential of the protection transistor decreases to a value where the base current of the protection transistor becomes insufficient to keep it open. If the stabilization voltage of the reference zener diode of both stabilizers is the same, then the protection operates at a higher output voltage and a lower overload current, which increases the reliability of the device.

Compared to the nototype, this device has a higher efficiency due to the fact that the current of the reference Zener diode is simultaneously the current of the base of the protection transistor. Efficiency wins are especially noticeable at low load currents.

In addition, in this device at the same material cost is achieved by expanding the range of operating temperatures while maintaining the same stabilization factor (or increasing it in a given temperature range). In the stabilizer, the base-emitter junction of the protection transistor 9 is switched on sequentially and counter with the reference stabilitron 5. As the ambient temperature increases, the stabilization voltage of the zener diode 5 increases and the base-emitter voltage of the transistor 9 decreases. The reference voltage, equal to the sum of these stresses, changes already within smaller limits. Usually, to achieve this goal, a thermal compensating diode (or several diodes) is switched on sequentially and counter to the reference Zener diode. In this stabilizer, such a diode is not needed or fewer of them are needed.

Claims (2)

1. USSR author's certificate number 418842, cl. G 05F 1/56, 1974. 2. For the number № 2471774/07, cl. G 05F 1/56, - according to which the decision on extradition is made copyright certificate.