SU1273906A1 - Stabilized power source - Google Patents

Abstract

The invention relates to electrical engineering and can be used in secondary power sources. The circuit of the invention is an increase in reliability by providing a smooth output to the mode after the removal of the output overload. The power source contains a controlled inverter 1, a rectifier 2, a filter 3, a load 4, an output voltage divider 5, a feedback amplifier 6, a feedback amplifier 7 against overcurrent and short circuit, a transformer sensor 8, a diode 9 and a variable current sensor resistor 10, soft start circuit 11-13. The introduction of the transistor 19, the capacitor 20 and the two diodes 17 and 18 provides a smooth output mode after the removal of overcurrent and short circuit at the output. The capacitor 20 is discharged through the diode 18 and the resistor 16, and the voltage at the input of the comparator 21 gradually decreases to the nominal value, which leads to a change in the pulse width from the minimum to the nominal value. Inverter transistors operate in a lightweight mode during switching on and after removing the overload. 2 or so on

Description

The invention relates to an electric current than a voltage reference. It is a technique, namely to secondary power sources, and can be used in various automation devices and computer technology. 5

The purpose of the invention is to increase reliability by ensuring a smooth exit · to the mode after removing the overload at the output of the device.

In FIG. 1 shows a diagram of a stabilized power supply; in FIG. 2 is a timing diagram explaining its operation.

The device contains a controlled inverter 1, rectifier 2, filter (5 3, load 4, output voltage divider 5, feedback amplifier 6, overcurrent and short circuit protection amplifier 7, transformer sensor 8, diode 9, and a variable resistor 20 10 'of the current sensor, resistor 11, capacitor 12 and diode 13 of the soft start circuit, diodes 14 and 15 and resistor 16, diodes 17 and 18, transistor 19, capacitor 20, comparator 21, sawtooth voltage generator 22.

A stabilized power source operates as follows.

When the source is turned on, a sawtooth voltage generator 22 starts to work 30 and the capacitor charges

12. In this case, at the first input of the comparator 21 there is a voltage that varies from the maximum value to the nominal value (see Fig. 2a, starting mode). When comparing this voltage with the voltage supplied from the sawtooth voltage generator 22, pulses corresponding to the starting mode (see Fig. 26) appear at the output of the comparator 21, which vary in duration from a minimum to a nominal value. Thus, it is smooth. starting a stabilized power supply.

During normal operation (see Fig. 2a, b), the pulses supplied to the controlled inverter 1, <

will be of nominal value.

If during the operation of the stabilized power supply there is an overcurrent (or short circuit), the protection circuit operates as follows.

At the middle terminal of the variable resistor 10, the voltage becomes pain leads to a change in voltage at the output of the current protection amplifier 7 from negative polarity to positive. Further, this positive voltage is supplied through the diode 15 to the first input of the comparator 21 and simultaneously through the diode 17 to the base of the transistor 19. At the output of the comparator 21, pulses of short duration are present (see Fig. 2a, b overload or short circuit). In this case, the capacitor 20 is charged through the transistor 19. After removing the current overload or short circuit at the output of the current protection amplifier 7, a negative voltage appears. The second capacitor 20 begins to discharge through the diode 18 and resistor 16. Therefore, at the first input of the comparator 21, a gradual decrease in voltage to the nominal value begins, and at its output the pulse width changes from the minimum to the nominal value (see Fig. 2a, b, smooth output to the mode after removing the overload or K ^).

Thus, power transistors in a controlled inverter operate ₍ in light mode both during power-up, and after removing overcurrent or short circuit, which increases the reliability of the device.

Claims (1)

The invention relates to electrical engineering, namely to secondary power sources, and can be used in various automation and computing devices. The purpose of the invention is to increase reliability by providing a smooth output mode after removing the overload at the output of the device. FIG. 1 is a diagram of a stabilized power source; in fig. 2 - time diagrams that show his work. The device contains a control inverter 1, a rectifier 2, a filter 3, a load 4, a divider 5 of the output terminal 11, a feedback amplifier 6, an amplifier 7 for protection against overcurrent and short circuit, a transformer sensor 8, a diode 9 and a variable resistor 10 current sensors, resistor 11, capacitor 12 and diode 13 of the soft start chain, diodes 14 and 15 and resistor 16, diodes 17 and 18, transistor 19, capacitor 20, comparator 21, sawtooth generator 22. The stabilized power source operates as follows. When the source is switched on, the sawtooth voltage generator 22 starts to work and the capacitor 12 is charged. At this, the first input of the comparator 21 contains a voltage varying from the maximum value to the nominal (see Fig. 2a, starting voltage). When comparing this voltage with the voltage supplied from the sawtooth voltage generator 22, at the output of the comparator 21 there appear pulses corresponding to the starting mode (see Fig. 26), which vary in duration from the minimum value to the nominal value. Smooth start of a stabilized power source. During normal operation (see Fig. 2a, b), the pulses applied to the controlled inverter 1 will be nominal values. If during operation of the stabilized power supply there is an overcurrent (or short circuit), the protection circuit works as follows. At the average output of the variable resistor 10, the voltage becomes greater than the reference voltage. This leads to a change in the voltage at the output of the current protection amplifier 7 from negative polarity to positive. Further, this positive voltage through the diode 15 is fed to the first input of the comparator 21 and simultaneously through the diode 17 to the base of the transistor 19. At the output of the comparator 21 there are pulses of short duration (see Fig. 2a, overload or short circuit). In this case, the capacitor 20 is charged through the transistor 19. After the overcurrent is removed or short-circuited, a negative voltage appears at the output of the current amplifier 7. The second capacitor 20 begins to discharge through the diode 18 and the resistor 16. Therefore, at the first input of the comparator 21, the voltage gradually decreases to the nominal value, and at its output the pulse width changes from the minimum to the nominal value (see Fig. 2a, b , a smooth exit to the mode after removal of an overload or K). Thus, the power transistors in the controlled inverter operate in a lightweight mode, both during switching on and after removing the overcurrent or short circuit, which increases the reliability of the device. Claims of the Invention A stabilized power source comprising a power circuit including a controlled inverter, a rectifier and a filter, an auxiliary power source, a feedback circuit including a feedback amplifier, an output voltage divider, a reference voltage source, a generator. a sawtooth voltage and a comparator, an overload protection circuit at the output, including a transformer current sensor and a protection amplifier, the outputs of the feedback and protection amplifiers being connected to the comparator input via decoupling diodes, characterized in that, in order to increase reliability by ensuring smooth output mode after removing the overload on the device's code, a transistor, a capacitor and two diodes are inserted into it, and the collector of the transistor is connected to the pole terminal of the auxiliary power source, mitter - to a capacitor, the second output of which is connected to the negative terminal of the auxiliary power source, one diode anode connected to the output of the protection amplifier, and the cathode to the base of the transistor, another diode anode connected to the emitter of the transistor, and the cathode to the input of the comparator. but ppsh FI.2 them