SU993224A2 - Dc voltage stabilized source - Google Patents

Description

FIELD: electrical engineering, automation, and computing. can be used for equipment operating on a given program.

According to the main author. St. No. 847305 is known for a stabilized constant voltage source containing a power transformer with an output winding with a midpoint, to the ends of which are connected the emitters of the first and second control transistors, an output filter connected by its input between the connection point of the collectors of control transistors and the circumference of the bus connected to the middle the point of the output winding, and the output is connected to the input zaikimi, and the control node of the regulating transistors and controlled by the transistor connected by the emitter a common bus, two zener diodes, the anode of which is connected to the first common bus and the cathode via a second zener diode and the first resistor - to the positive output terminal, photocoupler, a light emitter which is connected in parallel to the first zener diode, a.svetopriemnik - bazaemitter parallel to the transition control transistor,

rectifying diodes, anodes connected to the terminals and the secondary winding, and the combined cathodes through the second resistor - with the base of the control transistor and isolation diodes, the anodes, connected with the bases of the corresponding control transistors, and the combined cathodes through the third resistor - with the collector of the control transistors a transistor, and a shunt resistor 11 is connected in parallel with the emitter-base junction of each control transistor.

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The disadvantages of the known stabilized source are the absence of the possibility of switching on, operating and shutting down the source according to a given program, as well as the lack of protection.

The purpose of the invention is to enhance functionality and increase reliability.

The goal is achieved,

25 that a stabilizer has been entered into a stabilized source, at least one of the outputs of which is optically coupled to the light receiving device of an optoelectronic device, one of the inputs of which is connected to the input protection device, and one of the inputs of the latter is connected to the monitored object. In the drawing, a schematic diagram of a stabilized constant voltage source is presented. The source contains regulating transistors 1 and 2 with shunt resistors 3 and 4 bias connected in parallel with their emitter-base junction, control transistor first 6 and second 7 zener diodes and first resistor 8 connected to the positive output terminal of the source, optocoupler 9, light emitter 10 which is connected parallel to the first Zener diode 6, and the light receiver 11 parallel to the emitter-base junction of transistor 5, decoupling diodes 12 and 13, rectifying diodes 14 and 15, the second 16 and third 17 resistors, power transformer 18, output the filter 19 connected to the positive 20 and negative 21 terminals of the source 22, the load 23 is connected to the output terminals of each of the channels, the programmer 24, the outputs of which through the light emitters 25 of the optocoupler 9 are optically connected with the light-receivers 11 of the corresponding output channel, the device 26 protection, the inputs of which are connected to the controlled object, the output of the protection device 26 is connected to the input of the programmer of the torus 24. In the first half period of the input alternating voltage, the diode 15 is in the 5th state. Through the diode 15 and the resistor 16 The base current of the transistor 5 flows. This opens. Through half of the output winding of the transformer 18, the emitter – base junction of transistor 1, diode 12 and resistor 17, a current flows, causing the transistor 1 to turn on and to increase the voltage at the source output. When the output voltage reaches the value determined by the breakdown voltage of Zener diodes 6 and 7, the indicated Zener diodes break through, the current flows through the light emitter 10, the resistance of the photodetector 11 of the optocoupler 9 decreases sharply, which leads to the locking of the transistor 5 and, consequently, the transistor 1 is closed which is provided by the resistor 3. The current in the load 23 is supported by the choke of the output filter 19. When the output voltage decreases below the voltage of the breakdown of the stabilizers 6 and 7, the flow of current through these abilitron and light emitter 10 of optocoupler 9, resistance of photodetector 11 sharply increases, transistor 5 opens, through resistor 3, diode 12, resistor 17, transistor 5 flows current, transistor 1 opens, energy from transformer 18 is transferred to load 23. Circuit of operation of the circuit repeats over the first half cycle of the input voltage with a frequency determined by the parameters of the filter 19 and the feedback circuit consisting of zener diodes 6 and 7, an optocoupler 9 and a transistor 5. At the same time, the regulating transistor 2 is locked by means of a shunt relay in the second half-period of the input voltage of the adjustments, the transistor 1 is closed by a gaunter resistor 3, diD 15 is locked, and the diode 14 is open, which allows the transistor 2 to be controlled similarly to that considered, i.e. by switching its base current of the transistor 5. At the moment of switching on, the programmer generates a forbidden turn-on signal of the sources 22 by illuminating the light emitters 25 of the optocoupler 9, the resistances of the photoreceivers 11 abruptly decrease, the transistor 5 is in the closed state and, as a result, transistors 1 and 2, the closed state of which is provided by resistors 3 and 4 each 9 from sources 22. The sequence of switching on and off, as well as the operation of the entire source according to a given program is determined by the shutdown sequence or. turning on the light emitters 25 optocouplers 9, which are illuminated by signals from the programmer. If there is a malfunction in any of the monitored objects, the protection device 26 generates the Inhibit command, which is fed to the programmer 24, the light emitters 25 of the optocouplers 9 are illuminated, and this in turn leads to a sharp decrease in the resistance of the photodetectors 11, the transistors 5 close, and consequently, the control transistors close 1 and 2 of each of the sources 22, the voltage at load 23 is absent. After elimination of the malfunction, the stabilized source must be switched on. The entire cycle of operation of the circuit is repeated. Thus, the proposed source scheme allows you to turn on and off each of the output channels in a certain sequence, carry out work according to a predetermined program, which allows you to expand the functionality of the source, and also turns off the source if there is a fault in one of the output channels, i.e. . increases reliability

Claims (1)

Claim The stabilized source of constant voltage according to ed. St. No. 847305, characterized in that, in order to expand functionality and increase reliability, a programmer is introduced into it, at least one of the outputs of which is optically connected to the light receiver. opto-electronic device, one of the inputs of which is connected to the entered protection device, and one of the inputs of the latter is connected to the controlled object.