SU1689932A1 - Constant voltage stabilizer - Google Patents

Abstract

This invention relates to electrical engineering and can be used in secondary power supply sources. The purpose of the invention is to increase reliability by reducing the power at the control transistor when it is turned on. The goal is achieved by connecting the second input of the operational protection amplifier not only to the output power output 4 (through the first resistor 8), but through the series-connected second resistor 12 and the capacitor 9 to the common bus 5. Due to this, the level of load current limitation is not only proportional to the output voltage stabilizer, but also decreases over time. In this case, the following would be saved: system shutdown of the regulating transistor 1 in case of a short-circuit of the load: the discharge of the capacitor 9 through the diode 11 and the resistors of the divider 7 creates a high potential at the first input of the operational amplifier 6 protection with almost zero potential at the second input. 1 il.

Description

The invention relates to electrical engineering and can be used in secondary power sources.

The purpose of the invention is to increase reliability by reducing power at the control transistor when turned on.

The drawing shows a stabilizer circuit.

The stabilizer contains a regulating transistor 1 and a resistive current sensor 2 connected in series to the power bus) a measuring and amplifying unit 3 connected between the output power output 4 and the common bus 5, and the output to the base of the regulating transistor, an operational protection amplifier 6, the output connected to the base control transistor, resistive voltage divider 7, connected between the emitter of the control transistor and the common bus, and the output to the first input of the operational protection amplifier, the first resistor 8, connected to to the second input of the operational protection amplifier and the output power terminal, a capacitor 9 connected to a common bus by the first terminal, two diodes 10 and 11 connected in series between the second and first inputs of the operational protection amplifier, and a second resistor 12 connected between the common point of the diodes and the second output of the capacitor.

When the supply voltage is connected, the measuring and amplifying unit 3 opens the control transistor 1, the load current appears and the output voltage of the stabilizer begins to increase. The voltage at the first input of the operational amplifier 6 of protection is proportional to the output, if the capacitor 9 is absent in the circuit. In this case, the load current limiting level changes in proportion to the output voltage of the stabilizer (the series-connected resistors 8 and 12 form the output voltage divider, if we neglect the drop on the diode 10). Thanks to the capacitor 9, the potential of the second input of the operational protection amplifier 6 additionally changes in time - it increases as the capacitor 9 is charged. Consequently, the load current limitation level also decreases over time, which reduces the power at the recording transistor 1.

When a short circuit occurs in the load, the output voltage of the stabilizer drops to zero, however, the current of the regulating transistor 1 due to the inertia of the measuring amplifier unit 3 may not change significantly. The discharge of the capacitor 9 through the diode 11 and the resistors of the divider 7 creates a positive potential at the first input of the operational protection amplifier 6, which, when the potential of the second input is practically zero, allows it to quickly turn off the control transistor 1.

Thus, in the proposed stabilizer, the power on the control transistor is reduced when turned on while maintaining its fast shut-off in the event of a short circuit of the load, which improves reliability. Most effectively, the invention can be used in high voltage stabilized power supplies.

Claims (1)

Claim A dc voltage stabilizer containing a control transistor and a resistive current sensor connected in series to the power bus, a measuring and amplifier unit connected between the output power output and the common bus, and an output to the base of the control transistor, an operational protection amplifier, output connected to the base of the control transistor, resistive voltage divider connected between the emitter of the regulating transistor and the common bus, and the output to the first input of the operational protection amplifier, the first resis op connected between the second input of the operational protection amplifier and the output power output, and a capacitor connected to the common bus by the first output, characterized in that, in order to increase reliability by reducing the power at the control transistor when turned on, two series-wise the conducting direction between the second and first inputs of the operational amplifier of protection of the diode and the second resistor connected between the common point of the diodes and the second output of the capacitor.