SU1704144A1 - Switch type contact voltage stabilizer with protection system - Google Patents

Abstract

The invention relates to electronics and can be used in power supply devices. The purpose of the invention is to expand the scope of use. In the device containing the regulating element, the LDC filter, the measuring-amplifying feedback node and the protection node, the anode of the separation diode of the protection node is connected to one of the power terminals of the regulating element. When the anode of the separation diode of the protection node is connected to the input power output of the regulating element, the stabilizer is automatically restored to operability after the removal of the short-circuit. and in the case of its connection with the output power output of the regulating element - the trigger mode of protection. 1 hp f-ly. 1 il.

Description

The invention is noted in electrical engineering and can be used in power supply devices of the supply point.

Known hundred ста;:, congestion, which contains a regulating transistor, an amplifying transistor, a stabilizing bipolar transistor, a display element, a limiting resistor, a diode, a resistor, a zener diode, a thyristor, a current sensor, a resistor of a toggle bipolar, a divider output voltage , load, second voltage divider, reference voltage Zener diode, optocoupler, second resistor and transistor.

The disadvantage of this stabilizer is its limited scope.

Closest to the proposed is a stabilizer containing a regulating element, sequentially

connected B power bus, LCD filter connected between the regulating element and the output terminal, the control transistor connected by the collector-emitter circuit to the control transition of the regulating element, the measuring and amplifying feedback node with the voltage source, the input connected to the output terminal of the common bus, 5 output to the base of the control transistor, and the protection node consisting of the actuating transistor, the current limiting resistor, the zener diode, the capacitor, the voltage divider and the Diode ceiling elements at etom.parallelno connected capacitor and a zener diode connected between the common bus and base actuator transistor, to which is connected through a current limiting resistor separating diode cathode voltage divider protect its host

V4

g

S

the input terminals are connected to the output terminal of the stabilizer and the common bus, and the input terminal is connected to the emitter of the execution transistor, the collector of which is connected to the base of the control transistor.

The purpose of the invention is to expand the field of use and increase reliability by eliminating false alarms of protection when the stabilizer is turned on.

Expansion of the field of use lies in the possibility of using the stabilizer in cases where the goal is to avoid re-enabling the stabilizer during a current overload and in the case when its self-return is needed when the emergency situation is eliminated.

Improving the reliability is solved by eliminating false alarms of protection when switched on in the case of relatively large capacity at the output, using the initial circuits of devices as a load, etc. By connecting the isolating diode of the protection node to one of the power terminals of the regulating element, it is possible to protect the stabilizer without automatic self-return or with automatic self-return (when connected to the collector), and using an optoelectronic device to exclude false trips of the protection upon switching on.

FIG. Figure 1 shows a scheme without a device that eliminates false alarms of protection when switched on in the presence of ke, a relatively large capacity output; in fig. 2 is a diagram with a device that eliminates spurious protection at E 1c,

The stabilizer (FIG. 1) contains a steering element 1, a bus bar connected in series, an LCD filter 2 connected between regulate - the cell and the output pin-rOi-i. control transistor 3, connected by the collector-emitter circuit to the control transition of the regulating element 1, measuring and amplifying node 4 feedback to the source of black-and-white voltages, input connected to the output output relative to the common bus, s running to the base the control transistor 3, and the protection node 6, consisting of the actuating transistor 7, a current resistance of the resistor 8, a zener diode 9, a capacitor 10, a voltage divider 11, and a separation diode 12, while the parallel-connected capacitor 10 and a hundred Bilitron 9 is connected between the common bus and the BOTD of the executive transistor 7, to which the cathode of the separation diode 12 is connected through the current limiting resistor 8, and the voltage divider 11 of the protection node 6 is connected by its input terminal to the output terminal of the stabilizer and the common bus, and the input terminal to the emitter of the execution transistor 7, the collector of which is connected to the base of the control transistor 3.

The stabilizer also contains an optocoupler 13 and a capacitor 14. The light emitter of the optocoupler 13 is connected to the source 5 of the reference voltage of the measuring and amplifying feedback unit 4, and the photoreceiver of the optocoupler 13 is connected to the collector circuit of the actuating transistor of the protection unit 6.

The stabilizer works as follows.

In case of overload or short circuit (Fig. 1) in the load, the output voltage stabilizes and the unlocking voltage is applied to the base of the actuating transistor 7 of the protection unit 6. After opening, transistor 7 applies a block voltage to regulating element 1, which is closed. When connecting the separation diode 12 of the protection assembly 6 to one of the power terminals of the regulating element 1, it is possible to protect the stabilizer without automatic self-return (when connected to the emitter) by automatic self-return (when connected to the collector). When wired 12 is connected to the emitter of the regulating element 1, in order to turn on the stabilizer again (after overloading), it is necessary to remove it from the input of the power supply device Hi - ;. s; tsm: -chlumit ;; diode 2 is connected to diode 2 to the collector of regulating element 1, the stabilizer is RZS St & e with a вес-weight Samg.ozvrgstsm, t-.Ј. the control element 1 will remain in the locked state until the wound is discharged; charged capacitor 10. The stabilizer is switched on, and the switching time of the regulating element 1 is determined by the charging time and the psr-rrg: ltsenatore 10. The stabilizer load current decreases several times in comparison with the operating state and is within the specified acceptable limits. After elimination of the current overload or short circuit in the load, the stabilizer automatically returns to the operating state.

If there is a relatively large capacity at the output of the stabilizer or when using as a load the filament circuits of the instruments (Fig. 2) at the moment of switching on

The stabilizer increases the current consumption in connection with the charge of the output capacitor 14 and can reach a large value when the capacitance of the capacitor 14 is relatively large. In this case, the current protection in the stabilizer may work if special measures are not taken (Fig. 1). To prevent this from happening, i.e. there were no false positives of protection at the moment of switching on, protection node 6 (figure 2} includes an optocoupler 13. After charging the capacitor 14, a zener diode pierces and the light emitter of the optoelectronic device 13 is powered. This activates its photodetector by connecting the protection to the stabilizer Thus, the introduction of an optoelectronic device into the stabilizer eliminates false positives of protection at the moment of switching on when the capacitor has a relatively large capacitance, or the load represents the incandescent circuits of the devices.

Claims (1)

Claim 1. A key DC voltage regulator with protection, containing a regulating element, connected in series to the power bus, an LCD filter connected between the regulating element and an output terminal, a control transistor connected by its collector-emitter circuit to the control control element, measuring feedback amplifier with five the source of the reference voltage, the input connected to the output output relative to the common bus, and the output to the base of the control transistor, and the protection node, 5 consisting of an executive transistor, a current-limiting resistor, a zener diode, a voltage divider capacitor and a separation diode, while a parallel-connected capacitor and a zener diode are connected between the common bus and the base of the executive transistor, to which the cathode of the separation diode is connected through the current limiting resistor, and the divider voltage the protection node with its input pins is connected to the output of the stabilizer and the common bus, and the input output to the emitter of the execution transistor, call The vector of which is connected to the base of the control transistor, characterized in that. In order to expand the field of use, the anode of the separation diode of the protection node is connected to it from the power terminals of the regulating element. 2, the Stabilizer according to claim 1, of tl and h a yu shi and so. that, in order to increase reliability by eliminating false trips of protection when the stabilizer is turned on for a capacitive load, an optocoupler is inserted into it, the light emitter of which is connected to the reference voltage source of the measuring and amplifying feedback unit, and the photoreceiver to the collector of the protection transistor . 0 five 0 five 1 Fig 2