SU1053211A1 - D.c. voltage secondary-power-supply system - Google Patents

Description

2, the system according to claim 1, characterized in that, in order to develop a multi-channel variant, at least one secondary power supply node and an additional OR element with the number of inputs equal to the number of secondary power nodes connected to the outputs are entered

corresponding to the matching matching blocks of the secondary power supply units, and the output of the total element OR is connected to the input of the differentiating circuit, the output of the odvolibrator is simultaneously connected to the third inputs of the blocks to protect each of the secondary power supply nodes.

The invention relates to electrical engineering and can be used in the development of secondary power supply equipment for electronic equipment, which, with high sensitivity and speed of protective devices, has increased resistance to impulse noise.  The source of secondary power supply is known, which is equipped with a zgidity device installed in the signal path from the input of the protection device associated with the output of the monitored secondary power source to the actuator, RC integrator 1 However, the device efficiency significantly depends on the level of the block.  chi, from its nature and its penetration paths to the input of the comparison circuit (com-parator) of the protective device.  Noncriticality to the level of interference from the device’s own signal input to this device can be achieved only by increasing the constant Even time in the remaining cases, the indicated link is generally ineffective.  It is not possible to get any information on recognition based on recognition of features that distinguish them from the appearance of a relatively unresponsive emergency situation (failure of a controlled-protection power source) from this kind of protective device. The technical entity is a two-level power supply system, equipped, with the exception of the outlet for discharge. energy per consumer, display and outputs. group protection signal. and containing a block of feed.  not with. power and prohibiting input, as well as with main and auxiliary outputs, having a transformer with primary overlay, connected to amplified / yo power, and two secondary windings, of which the first rectifier is connected to the main output and simultaneously with the output of the system, and the second with an additional output of the power supply unit, a time relay with two outputs, a block for protecting the upper and lower limits of the output voltage of the system, which has a thyristor optocoupler associated with its output and two outputs, the first of which is connected to . with the output of the power supply unit, and the second is connected to the first output of the time relay, as well as the start control unit, which also has a thyristor optocoupler output coupled to the forbidden input of the power supply unit and the output of the sig pa and the group protection, and two inputs connected respectively to the second output of the time relay and to the auxiliary output of the power supply unit, the power input of this unit, as well as the primary power supply circuit of the start control unit and the time relay are connected to the input terminals of the system. In addition, the system includes an automatic unit ticks through which the thyristors of the optocoupler pairs (connected in parallel) of the protection unit and the start-up control unit with the blocking input of the power supply unit are connected.  The external outputs are output from the same block: the first is for indication (of the protection actuation) and the second for the group protection signal 2. The disadvantage of this system is that when the blocks for protection penetrate to the input (comparison circuits, threshold sensors, comparators) interference, they usually / work (ultimately their thyristor works), which entails a shutdown of the power supply and the power supply system as a whole, This causes unjustified interruptions in the equipment and requires additional work on controlling the sources in order to ensure that the protection is triggered not by any malfunction, but by interference.  However, it is impossible to establish this unequivocally, because the protection could have worked due to a short-term overload on the part of the consumer.  Thus, the system / low operating performance, primarily in terms of noise immunity, does not have any information about the reasons for the protection to be triggered.  The purpose of the invention is to provide. . in the power supply system of interference immunity of protection.  The delivered value; 1b is achieved by the fact that the DC power supply system of the secondary power supply is equipped with indication and group output signals and contains a secondary power supply unit that includes a power supply unit and includes a transformer with a primary winding connected to power amplifier, and two secondary windings, the first of which is connected via a rectifier to the main output of the power supply unit, is the system output, and the second to the additional output of the power supply unit, In time, the unit for protection of the upper and lower limits of the VERCHID voltage of the system, equipped with a thyristor optocoupler and two inputs, the first of which is connected to the main output of the power supply unit, and the second is connected to the first output of the time relay, the control unit, equipped with a thyristor optocoupler at the output, the first input of the starting control unit is connected to the second output of the time relay, the second input to the auxiliary output of the power supply unit, and the power inputs of the starting control unit, the primary power supply circuit of the starting control unit ka and a time relay are connected to the input terminals of the system, a differential circuit and a single vibrator are entered, two electronic switches two elements OR and a matching unit are inserted into the secondary power supply unit, and a protection signal reset node is introduced into the block for protection at the upper and lower limits of the output voltage made on the diode and relay, the winding and disconnecting contacts of which together with the thyristor of the optocoupler pair of this block are connected in series between the first output of the block for protection and the output for connection to the power bus, The polarity of which corresponds to the operating polarity of the voltage at the input of the first electronic switch, one of the terminals of the relay winding is connected to the first output of the protection unit and at the same time through the diode of the protection signal reset unit is connected to the additionally introduced third input of the unit for protection and another output of this the winding is connected to the second output of this block, the first output of the block for protection through the first electronic to the switch is connected to the first input of the first element OR, the output connected to the blocking input of the block pi and the second output is connected to the first input of the second OR element, its output connected to the input of a matching unit, the output of which is connected to the output of the protection processing indication and, via a differentiating circuit, to the input of a single vibrator that is sensitive to pulses of opposite polarity output of the matching unit, the output of the one-shot is connected to the third input of the unit for protection, the output of the control unit. the start is connected to the second input of the second OR element and to the input of the second electropHoro switch, the first and second inputs of which are connected respectively to the second input. the first element OR to the signal output of the group zgidity.  . . .  In addition, with.  In order to create a multichannel version, at least one secondary power supply node and an additional OR element are introduced with a number of inputs equal to the number of secondary power nodes connected to the outputs of the corresponding matching blocks of secondary power nodes, and the output of this element OR is connected to the input of the differentiating circuit, and the one-shot output connected simultaneously to the third inputs of the blocks to protect each of the nodes of the secondary power supply.  FIG.  1 shows a system diagram in its single-channel version) in FIG.  2 - the same, in a multichannel version; on fi. g, 3 - the most characteristic voltage plots on the circuit elements for the case of the impact of impulse noise; fig.  4 - the same for a really emergency situation.  The system comprises a secondary power supply unit 1 including a power supply unit 2 including a transformer with a primary winding 3. 1 and secondary windings 3. 2 and 3. 3, the power amplifier 4, to which the first of these windings is connected, and the rectifier 5, connected to the winding 3; 2, and the output to the main output of the power supply, which is the output of the entire system, and the second secondary winding 3. 3  A transformer is connected to the auxiliary output of the power supply unit.  The system also consists of a time relay b, a block 7 for protecting the upper and lower limits of the output voltage of the system, which includes an optocoupler thyristor pair 8 and a node 9 for resetting the protection signals, which in turn is made on a relay with a winding 10. 1 and opener contacts 10. 2 and diode 11, with the thyristor yjiovaiyOUT optocouplers / relay contacts and its winding connected in a series circuit that is connected to the negative polarity supply bus by one output and to the first unit connected to the electrocyte input connected to the first bus power unit.  A diode 11 is connected between the first output and the third input of this unit, the common point of the relay winding 10.1 and its contact group is connected to the second output of the unit 7 for protection.  In addition, the system consists of a start-up control unit 12, also with an output thyristor pair 13 at the output, a differentiation circuit 14, a single-oscillator 15, and two electronic switches 16 and 17. , two elements OR 18 and 19, as well as from the matching unit 20. .  The connection of the first output of the block 7 for protection with the prohibition of the input of the block 2 G | Itan1 is carried out through an electronic switch 16 and through the first element OR 18 (on its first input).  The second output of the block 7 for protection through the second element OR 19 (its first input is used), through the matching unit 20, the preamplifier-inverter, and then through the differentiating circuit 14 and finally through the one-shot 15 with the third input of his own block 7 for protection.  From the output of the matching unit 20, the same display output is also taken for the protection to be activated.  The first and second inputs of the start-up control unit 12 are connected respectively to the second time relay 6 output and to the additional output of the power supply unit 2, and its output (associated with I have, schm. in this block . an optocoupler thyristor 13) is connected to a forbidden input of a 2-liter unit, from a matching unit 20, the first of these connections being implemented through a second electronic switch 17 (at its second input) f and the second through the second element OR 19 (at the input) .  The second output of the electronic switch 17 is connected to the output of the group protection signal.  Multichannel Va (power supply system variant (FIG. 2) contains at least two nodes 1 of secondary electrical equipment, an additional OR 21 element with a number of inputs by the number of channels connected to the outputs of the corresponding matching stages, and the output of this element is connected to the input differentiating circuit 14.  At the same time, the output of the one-shot 15, which, together with the differentiating circuit, is common elements for the entire multi-channel system, is simultaneously connected to the third inputs of the blocks to protect all channels,.  The slashes in FIGS. 3 and 4 depict voltages 22.  - from the main output of the power supply unit (in FIG. 4, changed, start from the point o, which is marked with a cross, in this case an increase due to: blocking the power supply) | 23 and 24 are the thresholds for the operation of the protection, respectively, for the upper and lower limits; 25 splash from interference (FIG. 3); 26 - at the second output of block 7 for protection; the points 5 and wil indicate the moments of operation and, accordingly, the release of the relay 10); 27 -: at the output of the matching stage 20; 28 29 - respectively at the output of the differentiating circuit (at the input of the one-shot 15) and ria output of the one-shot (at the third input of the block 7 for protection); 30 - at the first output of this block; 31 - at the additional output of the power supply unit (the envelope of this voltage is shown, which is obtained from c. the start control unit when it is rectified; 32 at the time relay outputs; 33 and 34 at the output of the starting control unit and / respectively at the output of the first element OR 18; 35 - at the output of the second element OR 19, In a quiet state (in the absence of interference. and malfunctions) since the supply of the voltage system.  primary network. it works like a well-known system: its power supply unit 2 begins to work for the consumer, and protection unit 7, to monitor the upper threshold of the voltage consumed by the consumer.  After the time interval of the time relay, the lower protection threshold turns on, and the start control unit 12 comes into operation at this time, being in fault mode, but not obstructing the power supply unit 2, until it is out. In the case of the start control unit, - when trying to turn on the system with a faulty (power supply) power supply unit or if it fails during normal operation - as in the well-known one, the start-up control unit turns off the power supply unit 2 and the entire system.  The signal from the start-up control unit passes to the power supply input prohibiting input through the electronic switch 17 and the element OR 18. .  When the protection unit 7 is triggered (diagrams 22 and 26, FIG. 2), it is still not clear why it happened and is not excluded that from interference (coming to the third input of the unit for protection and then through Diode 11 to the input of the electronic switch 16 and relay 10), the voltage from the output of the one-shot 15 (plot 29. Fig. 2) prevents the power supply unit 2 from turning off at the time of on. The fuses of the optocoupler's thyristor in block 7 are for protection, but it creates conditions for the operation of the relay, which, having triggered (point S on plot 26), opens its contacts 10. 2 current circuit of its winding.  As the thyristor of the optocoupler 8 enters this circuit, it is switched on (quenched).  At the same time, the current and hours disappear (through winding 10. 1 relay it.  Thezhe returns to the original state.  On plot 26 (FIG.  2) this moment is reflected by the point a.  Characteristically, for the case, no Kaaannogo in FIG.  3, the voltage, is set, and the weight after the point and in, remains unchanged, and after the point, in, as the voltage at the point (e) for the case shown in FIG.  4, drops again.  This means that with a single impulse noise (FIG.  3) after the resumption of the conductivity of the crn cycles 10. 2 optocoupler thyristor 8 is not turned on anymore, since Interference has already disappeared, in other words, by how the true deviation of the output voltage of the power supply circuit for one hour; Thresholds (point a on plot 22 of FIG. 4} after the relay returns to its initial state (point b), it again triggers the rt-coupler's thyristor 8.  Impulses from the second output of block 7 dl. the protections are inverted by matching SiC cad 20 (plot 27) i and then differential. are differentiated by a differentiating chain 14 (plot 28).  A pulse from the output of this circuit, corresponding to the falling edge of the pulses of the matching cascade, is supplied by a one-shot 15, reducing the voltage C from the third input: block 7 for the duration of the pulse generated by it (plot 29).  : Therefore, when the SRI of the optocoupler's thyristor is repeated (which happens during the actual failure of block 2 of the power supply unit, but which does not take place in the case of mech), relay 10 no longer works, but only transmits via contacts D. 0 2 and its winding 10. 1 (from the first output of block 7 for protection) the potential of the negative busbar of the network to the input of the electronic switch 16 (plot 30) and then after it through OR 18 to the non-input of the power supply unit 2, turning it off.  As a result, the voltage drops at the outputs of the power supply, including (plot 31) and at the additional output of the alternating voltage from one of the windings (3. 3) a transformer, conditions for triggering the control unit 12 are created, since the voltage from the time relay still comes (plot 32) i The onxpnai 13 thyristor 13 (plot 33) triggered on the electronic switch 17 is a negative signal, and it and through the sequentially connected element OR 18 (through its second input) to the prohibiting entrance of the power supply unit 2.  This is already hitting the second power-off signal of the power supply unit, which occurred in the presence of the first one (received from block 7 for protection 7).  But the first signal disappears (plot 30) immediately after the end of the pulse (plot 29) of the single-oscillator 15 (point r on plot 26, FIG.  4) and the power supply unit is maintained in the off state already by the signal. from the start control unit 12, the shutdown lock starts therefore from block 7 for protection, it is further supported by the start control block (plot 34) "in accordance with this and on the information indicator output- connected to the output of the matching stage, the signal The moment r does not stop, but it persists (plot 27, evidence of a system shutdown.  The control signal for the matching stage is a signal (plot 35) formed by adding the signals from the second output of the protection unit 7 and the starting control unit 12 (plots 27 and 33 coOTBettJTBeHHO). and the function of the locking device, which secures the solution developed in the system as a result of an unresolved reason for the protection to shut down the power supply, but the existing one is short (plot 30), since.  Having finished its impulse (plot 29), the single-shot again eliminates the possibility of the prohibiting signal from the thyristor of the optocoupler 8 to the power supply, and, moreover, turns off the thyristor of this optocoupler itself, since the relay triggers again (Rae (contacts 10. 2) and dgshee / de-energize their obkyutku 10. 1, returns to its original state (point 5 on plot 26, fig.  four).  The pulse duration of the one-shot is set such / that, during its existence, passed successively in time; neglected).  The impulse duration of a single vibrator can only affect the system's tolerance, so if the 9th duration exceeds the repetitive disturbance period, the next impulse from the block for vaccinate after the preceding one (and the triggering singleton vibrator) turns off the power supply.  Therefore, one should strive for the shortest / generated one-shot pulse duration, but so that it is always bsc1, greater than the total time taken for all the listed processes to pass.  Due to the fact that the power supply unit is already turned off, the power supply unit is no longer triggered for edited data (for the considered case, the controlled voltage from the Power Supply Unit 2 at the upper limit).  If the power supply for the protection itself is also made from the power supply unit 2 (as in the known system), then it stops working after the power supply operation prohibits and in case the protection level is triggered at the lower fviy limit, the system is turned off with the signal output and to the output of the group protection (the second output of the electronic switch 17), which will have the same signal as the output of the start-up control unit (33).  Under its influence, other devices similar to the proposed device are turned off if their points of output of the group protection signal are ooadine among themselves.  Interference cannot be the cause of this (nor will the power supply unit 2 itself turn off due to the algorithm used in the present system for processing signals from the power supply unit to protect and distribute information about the actual voltage deviation of the power supply unit beyond the specified limits.  The proposed power supply system favorably differs from other known similar power supply devices with tolerance / voltage protection, in which measures are taken to ensure noise immunity, since it eliminates the possibility of self-deactivation due to interference, regardless of its intensity and method of penetration to the protection unit. At the same time, the interference does not disappear without a trace, and the information about their passage is complete (this is also true of the external information output of the indication, from the signals from which it is possible to judge the response and a power supply system noise, which creates the possibility of further improvement of the electromagnetic compatibility of electrical power systems of other electronic apparatu- swarm.

Claims (2)

1. A DC SECONDARY POWER SUPPLY SYSTEM, equipped with indication and group protection signal outputs and comprising a secondary power supply unit, including a power supply unit, equipped with a prohibiting input and including a transformer with a primary winding connected to a power amplifier and two secondary windings, the first of which through the rectifier is connected to the main output of the power supply, which is the output of the system, and the second to the additional output of the power supply, time relay, unit for protection on the top and bottom the limits of the output voltage of the system, equipped with a thyristor optocoupler pair and two inputs, the first of which is connected to the main output of the power supply, and the second is connected to the first output of the time relay, a start-up control unit equipped with a thyristor optocoupler pair at the output, the first input of the control unit the start-up is connected to the second output of the time relay, the second input to the additional output of the power supply, and the power inputs of the start-up control unit, the primary power supply circuit of the start-up control unit and the time relay are connected to the input output system, characterized in that, in order to ensure noise immunity of the protection, a differentiating circuit is introduced into it (circuit and one-shot, two electronic switches, two OR elements and a compliance block are introduced into the secondary power supply unit, and into the block for protection according to the upper and lower limits of the output voltage a .'unit of resetting protection signals made on a diode and relay, the winding and opening contacts of which together with the thyristor of the optocoupler pair of this unit is connected in series between the first output of the unit for protection and the output for Connections to the power bus, the polarity of which corresponds to the working polarity of the voltage at the input of the first electronic switch, moreover, one of the terminals of the relay winding I is connected to the first output of the unit for protection and, at the same time, is connected to the additional input of the third input of the unit for protection, and the other the output of this winding is connected to the second output of this unit, the first output of the unit for protection through the first electronic switch is connected to the first input of the first OR element, output-. the power supply connected to the inhibiting input, and the second output * to the first input of the second OR element, connected by its output to the input of the matching unit, the output of which is connected to the output of the protection operation indication and through the differentiating circuit to the input of a one-shot sensitive to polarity opposite pulses the polarity of the pulses at the output of the matching unit, the output of the one-shot is connected to the third input of the unit for protection, the output of the start-up control unit is connected to the second input of the second OR element and to the input do the second electronic off. sensor, the first and second inputs of which are connected respectively to the second input of the first element. OR and to the output of the group protection signal. SU „1053211 2. The system by π. 1, characterized in that, in order to form a multi-channel variant, at least one secondary power supply unit and an additional OR element with the number of inputs equal to the number of secondary power supply nodes connected to the outputs of the respective matching blocks of the secondary power supply units are introduced, and the output of this OR element is connected to the input of the differentiating circuit, and the output of the single-shot is connected simultaneously to the third inputs of the blocks to protect each of the nodes of the secondary power supply.