SU864271A1 - Dc power supply system - Google Patents

Description

one

The invention relates to instrumentation, namely, to the technique of creating equipment for powering electronic-physical equipment. It can be used to power prototypes and serial equipment samples, mockups, as well as automated production and technological tests of various products. It is effective to use in conditions when the powered device (converter, load) does not allow significant prolonged voltage increases, loss of one of the nominal values. Supply voltage, i.e. when setting up schemes containing expensive, little-studied elements. DC power supply systems are known that contain two or more voltage stabilizers, equipped with a collective protection unit that generates a signal for locking the control transistors of all stabilizers in an accident in any stabilizer. the protection executives are included here on the permanent TOKa) lJ side.

Closest to the present invention is a DC power supply system, containing N separate stabilized sources, each of which is provided with a protection unit, and a collective protection busbar f 2.

ten

The disadvantage of this power supply system with group protection is the impossibility of an arbitrary connection of sources (in series or in parallel), as well as operational ones in standby mode (without operator observation) when restarted.

The purpose of the invention is to expand the functionality of the system.

20 meals.

Claims (2)

To achieve this goal, a direct current voltage system in the power supply system, containing N separate stabilized sources, each of which is equipped with a protection node, and a collective protection bus, includes N starting nodes, N switching nodes, each consisting of individual and group protection switches. the switch of automatic and manual start, the OR circuit and the control key included in the supply voltage, and in the manual start mode the control key in each of the switching nodes is connected to the output with ORs, and in the automatic start mode, with the automatic start bus of the corresponding start node, the inputs of the OR circuit are connected to the one-time and manual start-up buses of the start node, and the group protection buses are combined in the individual and group protection switch in the group protection mode and open in the personal protection. In addition, each of the startup nodes contains a thyristor with a transformer in the anode circuit, the secondary winding of which is connected to the group protection buses, an inverter on the transistor connected to the anode circuit of the thyristor, and an electromagnetic relay with closing and opening contacts, and the relay winding is connected to the anode circuit. the thyristor circuit during the automatic start and into the collector circuit of the transistor during a single start, the open contact of the relay is connected to the automatic start bus, and the close contact is connected to the manual start bus. The drawing shows the scheme of the proposed device for. The system contains three stabilized constant voltage sources with output connectors 1-3. In a similar pattern, more sources can be connected. In particular, compounds of four and six sources were designed, which is the most acceptable for practical applications. The system contains three switching devices, each of which consists of a SHS scheme (4-1, 4-2.4 3, respectively) of a control key (5-1.5 -2.5 -3), three switches (6-1, 6-2, 6-3, 7-1, 7-2, 7-3, 8-3) and communication buses between switching devices and source connectors. Switches 6 are used to select the type of system start, manual or automatic (indicated in the automatic start position). In the automatic start mode, the switch 6 connects the input of the control key to the automatic start bus of its source, and in the manual start mode, to the output of the SHS circuit, the inputs of which are connected to the single and manual start buses. The switches 7 serve to combine the sources entering the system in the group protection mode (in the individual protection mode these switches are open). Switches 8 are used to organize parallel operation of sources. These switches are interconnected and each of them is connected to buses 9-13 of its source. A source ,. articulated with connector 1, operates in a voltage stabilizer mode, and the other sources at the specified positions of the switches 8-2 and 8-3 are slave; Each slave source delivers the same current to the load as the leading source. Thus, all three sources are included in parallel in the group protection mode with automatic start. The source consists of a controlled rectifier 14, a regulating element 15, a current limiting circuit 16, a protection unit 17, a circuit for eliminating the output voltage spikes during abrupt changes in the load current 18 of the feedback amplifier IV, a reference voltage source 20, a large-scale resistor 21, the voltage divider 22 of the power switch 23, the manual start button 24, the diode 25, which serves to lock. control transistor when the protection is triggered. In each particular case, the source may have a different composition, the use of which in the proposed device allows the fullest use of its functionality. The protection unit 17 includes a low-power thyristor 26 with a transformer 27 in the anode circuit, an inverter on the transistor 28, an input connected to the anode circuit of the thyristor 26, an electromagnetic relay with short-circuits and a stone contact, the winding 29 of which is connected to the main (or auxiliary) terminal with the rectifier, and the other with the start type bus 30. The opening contact of the relay is connected to the bus 31 automatic start, and the closing contact with the bus 32 manual start. One of the secondary windings of the transformer 27 under is connected to the buses 33 of the group protection. In the automatic start mode, the system functions as follows. The mains voltage, passing through the power filter 34, enters the first phase through the contacts 35 of the connectors, and the second Gphase through the control keys 5 (relays, thyristors) and the contacts 36 of the connectors to the switches 23 and further to the voltage source converters 14. In the absence of emergency situations, the thyristor 26 of the protection units of the 17 sources is in a non-conducting state, since the control electrodes of the thyristors do not receive an alarm signal from the feedback amplifier 19. The winding of the relay 29 is switched on in the automatic start mode to the anode circuit of the thyristor 26, is de-energized, and a control signal is supplied to the controlled key 5 through the disconnecting contact of the relay, automatic start bus 31 and switch 6. Thus, in the absence of emergency situations, when the network voltage appears, the system begins to issue s current load. When the voltage of any source deviates from the nominal (accident) voltage, the control electrode of the thyristor 26 receives a signal including a thyristor. When, at one of the secondary windings of the transformer 27, an impulse appears, through the buses of the group protection 33 and the switches & 7 arriving at the identical secondary windings of the other transformers. The flow of current through these windings causes a voltage on the other secondary windings to flow to the control electrodes of the thyristors 26 and turn them on. Thus, in the event of an accident, all the thyristors 26 go into a conducting state, with each source triggered a relay 29 and its opening contact turns off the controlled key 5, all sources are disconnected from the network. In this case, the relay anchor remains in an attractive state for some time, since the switching-off current of the relay is usually several times less than the switching current, and the voltage at the output of the rectifier feeding the relay coil decreases more slowly as the filter capacity increases. this straightener. As soon as the current through the relay becomes less than the holding current, the relay releases, and the disconnecting contact of the relay closes the switch-on circuit of the control key 5. If at this moment the emergency situation disappears, the system goes into operation, otherwise the thyristor 26 immediately goes off and the system turns off from the network. Thus, in the event of an emergency, the system periodically briefly turns on the network and then shuts down until the alarm signal disappears. In the manual start mode, the switch 6 of the respective sources is transferred to the position in which the relay coil 29 is connected to the thyristor collector 28, and the signal for switching on the control key 5 comes from the output of the OR circuit. Since, in the initial state, the winding 29 of the relay is de-energized, and the key 5 is controlled via the closing relay contact, the system or source can only be turned on by pressing the button 24 manually. At the same time, a permissive signal appears on the single-start bus 37, which through the OR circuit and the switch 8 enters the input of the control key 5 that connects the corresponding source to the network. If there is no emergency, then the thyristor 26 remains non-conducting, and the thyristor 28 respectively energizes the winding 29 of the relay. At the same time, the closing contact sends a manual start signal to the bus 32, due to which the source (system) remains in the on state after the button 24 is released. When an alarm signal occurs on any of the control thyristor electrodes 26, all sources (Included: are disconnected from the network (as in the automatic start). The sources can be switched on again only by pressing the button 24. Any of the sources can be switched to the individual operation mode by opening the corresponding switch 7 from the Manual or automatic start by switch 6. The proposed power scheme allows you to quickly change the mode of operation, which reduces the time spent during various studies in the laboratory and in production, and also reduces the likelihood of erroneous connections and destruction of the powered devices. can be used effectively to replace a number of known systems. 1. Invention 1. A DC power supply system containing N individual stabilized sources. Collective protection pads, each of which is equipped with a protection node, and collective protection ppni, different from the fact that, with the aim of distributing functional capabilities, the system includes N start nodes, N switch nodes, each of which consists of individual and group protection switches, the switch of the automatic and manual start, the OR circuit and the control key included in the supply voltage and thawing circuit, | In the manual start mode, the control key in each of the switching nodes is connected to the output of the OR circuit, and in the automatic start modebus is automatically sootvetstvunltsego start of activation units, the inputs of OR gate soe1 .8 dineny with rails and a single manual actuation of the activation unit, and the bus group protection switch through individual and group zashdty combined mode group protection and PA- zomknuty mode PPE. 2. The system according to claim 1, characterized in that each of the start-up nodes contains a thyristor with a transformer in the anode circuit, the secondary winding of which is connected to the group protection buses, an inverter, connected to the anode circuit of the thyristor at the transistor, and an electromagnetic relay with the closing and opening contacts, the relay coil being connected to the anode circuit of the thyristor during automatic start and the collector circuit of the transistor during single starting, the opening contact of the relay is connected to the automatic start bus, and the closing contact is connected to the bus manually th start. Sources of information taken into account in the examination 1. USSR author's certificate number 457986, cl. G05 F 1/56, 1973. 2. USSR author's certificate number 514282, cl. G05 F 1/58, 1974.