SU978124A1 - Direct current power supply source - Google Patents

Description

(54) POWER SUPPLY POWER SUPPLY

CURRENT

This invention relates to stabilized DC power supplies.

A DC power supply is known, which contains two voltage stabilizers, each of which consists of a series regulating element, a feedback node and an emergency protection node 1J

A disadvantage of the known device is the low reliability during the breakdown of the control transistor.

The closest in technical essence to the present invention is a DC power supply source containing a voltage regulator consisting of a series regulating element, a feedback node and a protection unit consisting of an actuator on the power thyristor connected between the input terminal and the regulator unit, emergency mode sensors and a control unit consisting of an input, output transistors and an auxiliary thyristor, while the emitters of the transistors and the anode of the thyristor connect enes with the common bus, the input transistor base.

connected to the outputs of the emergency mode sensors, and the collector to the control electrode of the auxiliary thyristor and through a resistor with the output of the auxiliary filter, the cathode of the auxiliary thyristor connected to the output transistor base and through the resistor to the output of the above filter, and the collector of the 10 hrddny transistor is connected through a resistor the control electrode of the thyristor of the actuator C2J.

The disadvantage of the source is

15 limited functionality and low reliability. They are due to the fact that protection is carried out for one stabilizer and when it is turned off, the others continue to work, which in some cases is inadmissible (fm.

The purpose of the invention is to enhance the functionality and enhance the Scalability.

25

The goal is achieved by the fact that the DC power supply is equipped with a second similar voltage regulator, and each protection unit is supplemented with an off-switch unit (the input that is connected afterwards reliably to the power circuit or input transistor or auxiliary thyristor, its stabilizer, and the output connected either to the control input of the auxiliary thyristor or to the input transistor of another stabilizer. The switch-off unit is made on an optoelectronic device, the light emission of which is connected to the circuit The auxiliary thyristor is of its own stabilizer, and the photodetector is parallel to the collector-emitter junction of the input transistor of the control unit of another stabilizer. When the source is at least three-phase, the photoreceivers of the optoelectronic devices B1 are disconnected according to the ring-off circuit of the phase lysator. between the common bus of the first stabilizer and the output bus of the second stabilizer, the shutdown unit of the first stabilizer is made on a transistor with conductivity analog conductivity of the input transistor of the control node, and the shutdown node of the second stabilizer is made on a transistor with a conductivity opposite to that of the input transistor of the control node, and the base-emitter junction of the switch-off transistor is connected to the additionally inserted resistor connected to the collector circuit of the input transistor. control of its stabilizer, the collector of the transistor of the first stabilizer off node is connected to the base of the input transistor of the control node of the second recuperators and the collector node of transistor turning off -sec stabilizer is connected to the collector of the first stabilizer control node of the input transistor. Figures 1 and 2 illustrate dual-channel and multichannel power supply circuits with an off-switch node on an optoelectronic device; FIG. 3 is a two-channel power supply circuit with a switch node. On the transistor. The device contains a stabilizing voltage of 1 and 2 N. Ka: zhid | st of hundred regulators consists of a series of regulating element 3, node 4 feedback, connecting the input of regulating element 3 with the output pins of the stabilizer, and the protection unit consisting of an overloading element 5 on the thyristor of the overload sensors according to KK 6, output overvoltage .7, output voltage underload 8, temperature rise 9, actuator control unit 10 connected between the input terminal and control element 3. Site 10 control is edit of the input transistor 11, auxiliary thyristor 12 and output transistor 13, collector of the transistor 11 through the resistor 14 and the cathode of the thyristor 12 through the resistor 15 are connected to the auxiliary output filter capacitor 16 is connected through a resistor to the input of a stabilizer. The collector of transistor 13 is connected to the thyristor control electrode 5 through the resistor 17. The base of transistor 13 is connected to the cathode of thyristor 12 via a resistor, whose control junction through the resistor is connected to the collector of transistor 11. The emitters of transistor 11 are connected to a common tire. The shutdown node (Figures 1 and 2) consists of an optoelectronic device 18-1, 18-2, ... 18-Ы light emitters of which 19-1, 19-2, ... 19-N are included in the anodes of the thyristors 12, their stabilizers, and photodetectors 20-1, 20-2, ... 20-N are connected in parallel to the collector-emitter junction of the transistors 11 of other stabilizers, forming an annular circuit for switching off stabilizers. The shutdown node (FIG. 3) of the first stabilizer 1 is made on a transistor 21 with a conductivity similar to transistor 11, and the second stabilizer 2 is made on a transistor 22 with a conductivity opposite to the transistor 11. The baso-emitter transitions of transistors 21 and 22 are connected to a resistor 23 connected into the collector circuit of transistor 11 from the side of resistor 14, the collector of transistor 21 is connected via resistors to collectors of transistor 11 of stabilizer 2, and the collector of transistor 22 is connected to resistor 11 of stabilizer 1 through a resistor. Device your works as follows. When an emergency mode occurs, one of the stabilizers, for example, stabilizer 1, turns on transistor 11, thyristor 12, closes transistor 13, thyristor 5. As a result, stabilizer 1 turns off from the power source. At the same time, the shutdown node (optocoupler 18 or transistor 21) is turned on, which includes the thyristor 12 and the shutdown node (optocoupler 18 or transistor 22) of stabilizer 2. As a result, the thyristor 5 of stabilizer 2 is turned off and the load is disconnected. The shut-off node of stabilizer 2 creates its own signal for turning off stabilizer 1,

In the case of a multichannel power source (FIG. 2), the activation of the protection of the stabilizer 1 triggers the protection of the stabilizer 2, which in turn leads to the protection of the stabilizer 3, etc., and the protection of the stabilizer acts on the protection, the stabilizer 1 therefore Place the ring circuit off .and stabilizers when you turn off one of them.

The application of the proposed technical solution allows for the emergence of an emergency mode in one of the stabilizers and its disconnection to prevent the load cells and components from going out of operation by disconnecting the remaining stabilizers and thereby increasing the reliability of the source and product in the first.

Claims (4)

Invention Formula 1, A DC power supply comprising a voltage regulator consisting of a sequentially regulating element, a feedback unit and a protection unit consisting of an actuator. A power thyristor connected between the input terminal and the regulating element, emergency mode sensors, and a control unit consisting of the input, output transistors and the auxiliary thyristor, such as the emitters of the transistors and the anode of the auxiliary thyristor are connected to the common bus, the base of the input transistor is connected to the outputs of the emergency mode sensors, and the collector - with the control electrode of the auxiliary thyristor and through a resistor with the output of the auxiliary, filter, cathode of the auxiliary thyristor with the output transistor base and through a resistor with the output of said filter, and the collector of the output transistor through a resistor is connected to the control electrode of the actuator thyristor, characterized in that, in order to expand functionality and increase reliability, it is equipped with a second similar stabilizer , and each protection unit is equipped with an off-node, the input of which is connected in series to the power circuit or input transistor, or auxiliary thyristor, and the output is connected to or to the control it is the input of an auxiliary thyristor, or the input transistor of another stabilizer. 2. The power supply source according to claim 1, characterized in that the shutdown node is made on an optoelectronic device, the light emitter of which is included and the auxiliary thyristor anode circuit, its stabilizer, and the photodetector in parallel - collector-emitter 5 to the transition of the input transistor of the control node of another stabilizer. 3. A source of electrical power according to Claims 1 and 2, characterized in that when the source is made at least three-phase, the photo0 receivers of optoelectronic devices are switched on according to a ring-off circuit of stabilizers. 4. Power supply by 5 of claim 1, characterized in that in the presence of galvanic coupling between the common bus of the first stabilizer and the output bus of the second stabilizer, the shutdown unit of the first stabilizer is made on 0 a transistor with a conductivity similar to the conductivity of the input transistor of the control node, and the shutdown node of the second stabilizer is made on a transistor with a conductance opposite to the conductivity of the input transistor of the control node, with the base-emitter junction of the turning-off transistor being connected to the additionally entered 0 to the resistor connected to the collector circuit of the input transistor of the control unit of its stabilizer, the collector of the transistor of the first stabilizer shutdown unit is connected to the base of the input transistor of the control unit of the second stabilizer, and the collector transistor of the second stabilizer switch-off unit is connected to the collector of the input transistor of the node 0 control of the first stabilizer. Sources of information taken into account in the examination 1. Author's certificate of the USSR 612224, cl. G 05 F 1/58, 1978. five 2. Authors certificate of the USSR 744524, cl. G 05 F 1/58, 1980. Hf