SU1598048A1 - Uninterrupted power supply unit - Google Patents

Abstract

The invention relates to converter equipment, in particular to uninterruptible power supply units of responsible alternating current consumers. The goal is to expand the functionality of redundant uninterruptible power supply units of a branched load. The device contains two inverters with control units for their state, two contactors with control units, the outputs of the contactors are combined and connected to an uncoupled branched load, the circuit of which includes a current sensor, a backup source, which is connected via a third contactor to the switchable uncoupled load the circuit of which includes the second current sensor, the fourth contactor is connected between the combined output of the first two contactors and the load to be switched off. The third and fourth contactors also have control units. The outputs of the current sensors are connected to the control inputs of the first, second and third, fourth contactors, respectively. The stop outputs of the first and second control units are connected to the OR element, the output of which is connected to the stop input of the control unit by the fourth contactor, the start output of which is connected to the stop input of the control unit by the third contactor. Control units are electronic circuits on triggers, OR, OR-NOT gates, pulse makers. 2 Il.

Description

The invention relates to converter equipment, in particular to uninterruptible power supply units of responsible alternating current consumers.

The purpose of the invention is to expand the functionality of redundant uninterruptible power supply units of a branched load.

FIG. 1 shows a diagram of the unit; in fig. 2 contactor controls.

The uninterruptible power supply unit contains inverters 1 and 2, which are connected in parallel through contactors 3 and 4 and connected via the first current sensor 5 to non-switched on-functional - block diagram

loadable branch load 6, and through the contactor 7 and the second current sensor 8 to the switchable load 9, the contactor 10, whose input is connected to the backup source 11, and the output combined with the output of the contactor 7, blocks 12 and 13 of the inverter control, controlled the inputs of which are connected respectively to inverters 1 and 2, blocks 14 and 15 of controlling the contactors, the control outputs of which are connected respectively to contactors 3 and 4, the stop inputs to the emergency outputs of blocks 12 and 13, respectively, and the monitoring inputs to the output of sensor 5, the element OR 16 whose inputs are connected

with

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to the stop outputs of blocks 14 and 15, blocks 17 and 18 of controlling the contactors, the control outputs of which are connected to contactors 7 and 10, controlling inputs to the output of current sensor 8, and the stop inputs of blocks 17 and 18 are connected respectively to the output of the OR element 16 and to the starting output of block 17.

The blocks 14, 15, 17 and 18 of the control of the contactors (Fig. 2) contain the sub-block 19 of the control, the first 20, the second 21 and the third 22 OR elements, the threshold element 23, the first 24 and second 25 triggers, the first 26 and the second 27 elements delays, the first 28 and second 29 elements are NOT, the first 30 and second 31 control pulse formers, the reset button 32, the first terminal 33 and the second terminal 34. The first input of the first element OR 20 is the stop input of each block, the second input is connected to control sub-block 19, the third input to the first terminal 33, and the fourth input to the first output second trigger 25.

The output of the first element OR 20 is connected to the inputs of the drivers 30 and 31, the outputs of which are the control outputs of each control unit, and to the first inputs of the second element OR 21 and the first AND-NOT element 28. The monitoring input of each control unit is the input of the threshold element 23, the output of which is connected to the first input of the third element OR 22 and to the stop input of the first trigger 24, the start input of which is connected to the output of the second delay element 27, the first output connected to the second terminal 34, to the second input the second element and OR 21, the output of which is the stop output of each control unit, and to the first input of the second NAND element 29.

The second output of the first trigger 24 is connected to the input of the first delay element 26, the output of which is connected to the second input of the third element OR 22, the output of which is connected to the stop input of the second trigger 25, the start input of which is connected to the reset button 32, the second output of the second trigger 25 is connected to the second input of the first element IS-NE 28, the output of which is the starting output of the control unit, and the second input of the second element IS-NOT 29, the output of which is connected to the input of the second delay element 27. The control sub-unit 19 is a two-position switch, one input of which is connected to the power source, the other to the neutral wire.

The uninterruptible power supply unit operates as follows.

Inverters 1 and 2 operate in parallel through contactors 3 and 4, and the synchronism, the in-phase nature of the output voltages of the inverters, and the currents between them are divided by the nodes that make up the inverters. The control units 12 and 13 control the state of the thyristors and the output voltage of the inverters 1 and 2. In the absence of a deviation of the monitored parameters beyond the specified limits, the signal "O" is present at the emergency output of the blocks 12 and 13. The control and monitoring units 14, 15, 17 and 18 provide for turning on and off contactors 3, 4, 7 and 10 and controlling the load current.

In the initial state in blocks 14, 15 and 17 at the stop input, at the output of the control subblock 19, at the first outputs of the flip-flops 24 and 25, at the outputs of the OR elements 20 and 21 there is a signal "O, at the output of the threshold element 28, at the second outputs flip-flops 24 and 25, at the outputs of delay elements 26 and 27, at the outputs of elements OR 22, AND-NOT 28 and 29 there is a signal “1. The control pulse shaper 30 generates control pulses on the main thyristors of the contactor, as a result of which the contactors 3, 4 and 7 are open and the loads 6 and 9 are fed from inverters 1 and 2. In block 18, the stop input receives the signal "1 from the starting output of block 17 ( element AND-NOT 28), therefore, at it at the output of elements 20 and 2 OR there is a signal “1, at the output of the element AND-NOT 28 - signal“ O On the other elements, the output signals are similar to the signals in blocks 14, 15 and 17.

The shaper 30 to the main thyristors of the contactor controls the pulse, so the contactor 0 is closed. The former 31, in contrast to the former 30, generates single control pulses that are generated at the moment the signal 1 appears at the output of the OR element 20 and are intended to turn on the thyristors of the forced quenching of the main thyristors of the contactor, which turn off the main thyristors E any moment of the sinusoid. The thyristor forced quenching units are part of the contactor (not shown).

When an alarm occurs in one of the inverters, for example, in inverter 1, block 12 generates an alarm signal "1 to block 14. At the output of the OR 20 and 21 elements, a signal" 1 is generated, and at the output of the AND-28 element - the signal "O" Shaper 30 stops generating control pulses to the main thyristors of the contactor, and shaper 31 generates single control pulses of the thyristors of the forced quenching node. Contactor 3 is locked. At the same time, the signal "1 from the stop output of the block 14 goes through the element OR 16 to the stop input of the block 17, which, similarly to the block 14, turns off the contactor 7. At the starting output of the block 17, a signal" O which is fed to the stop input of the block 18 is formed. OR 20, a “O.” signal is generated. Shaper 30 begins to generate control pulses, which leads to the opening of contactor 10.

Thus, in the event of a fault in the inverter 1, the pad 6 begins to be powered only by the inverter 2, and the load 9 is switched to the power supply from the backup source 11.

Similarly, the unit operates in the event of an inverter 2 alarm, only in this case load 6 is powered by inverter 1. When the failed inverter 1 is restored, the signal O is generated at the emergency output of unit 12, which causes the contactor 3 to turn on. At the same time, the signal O is generated at the stop output of the unit 14, and consequently, at the output of the element OR 16. This leads to the fact that at the starting output of block 17 a signal "1." As a result, unit 17 turns on contactor 7, and unit 18 turns off contactor 10 and both loads 6 and 10 begin to feed again from inverters 1 and 2.

When a short circuit in the load 6 at the outputs of the threshold elements 23 of the blocks 14 and 15, a signal "O, which

which resets the delay element 27, which prevents the formation of the signal "O" and the return of the trigger 24 to the initial state. To switch on the contactors 3 and 4 after eliminating a short circuit in the load, it is enough to apply a zero signal to the trigger input of the trigger 25 by briefly pressing the reset button 32. In case both inverters cannot operate simultaneously for short

10 short circuit in load 6, it is necessary to install a jumper between terminals 33 and 34 in one of blocks 14 or 15.

For normal operation of the unit during a short circuit in load 9, block 17 sets a jumper at terminals 33 and 34. When a short circuit occurs in load 9, the threshold element 23 is triggered, the trigger 24 changes its state, which causes the contactor to turn off 10. A short circuit sets up the trigger 24 of both blocks in a 20 load 9 "is burned out by a backup condition, when on the first output the signal" 1, and on the second the signal "O. The signal "1 from the first output of the trigger 24 goes through the element OR 21 to the stop outputs by the block 11. If the short circuit duration does not exceed the permissible value for the unit and load, then the unit provides 14 and 15 after the end of the short circuit, load 9 load connection 9

Tactor 7 and the inclusion of the contactor 10. Single - - -

temporarily, the signal “O” from the second output of the trigger 24 goes to the delay element 26, which determines the duration of the unit operation for a short circuit, based on the allowable capabilities of the unit and the load. If the short circuit disappeared more than the delay element 26 triggered, the signal "1 at the output of the threshold element 23 appears earlier than the signal" O at the output of the delay element 26, at the output of the element OR 22, the signal "1 remains and the trigger 25 does not change em its state.

Simultaneously with the start of the delay element 26, the delay element 27 is started from the signal "O at the output of the NAND element 29. After a time not less than the voltage recovery time after the end of the short circuit, in the load 6 at the outputs of inverters 1 and 2 to the nominal value of the element 27 the delay forms a zero signal, which returns the trigger 24 to its original position. At the same time, at the stop outputs of both blocks 14 and 15, the signals "O" are formed. As a result, the load 9 is again connected to the inverters 1 and 2. If the short circuit duration is longer than the delay element 26, then the signals "O, which, arriving at the stop input of the trigger 25, change its state so that that the first output is formed by the sigc inverters 1 and 2. If the short circuit duration exceeds the permissible value, then the load 9 is de-energized, since at the outputs of the OR 20 and AND-NO elements 28 blocks 17 and 18 are formed in the last

30 case, the signals "1, leading to the disconnection of the contactor 10. The operation of blocks 17 and 8 in these modes is similar to the described operation of blocks 14 and 15 with regard to the presence of a jumper on terminals 33 and 34. Subcontrol 19 is used to output any of the contactors for maintenance, by means of which the signal "1" is formed at the second input of the element OR 20, and the contactor operating on the load is switched off.

As contactors 3, 4, 7 and 10, high-speed contactors (shutdown time up to 1 ms) can be used based on single-operation thyristors with forced-power nodes, based on power transistors and lockable thyristors. For contactors based on power transistors and lockable thyristors, shaper 31 forms control signals that are locked to these elements.

Claims (2)

Invention Formula 45 50 “1, and at the second output - the signal“ As a result, at the output of the element OR 20 Both blocks 14 and 15 generate a signal 55 and a second contactors "1, which leads to the disconnection of contactors 3 and 4. At the same time, the output signal" 1, An uninterruptible power supply unit containing the first and second inverters with disconnecting means and one of the loads, the first and second inverter control blocks, the control inputs of which are connected to the corresponding inverters, the first the inputs of which are connected to the outputs of the respective inverters, and the outputs are combined and connected to the outputs for non-switchable load. which resets the delay element 27, which prevents the formation of the signal "O" and the return of the trigger 24 to the initial state. To turn on contactors 3 and 4 after eliminating a short circuit in the load, it is enough to apply a zero signal to the trigger input of trigger 25 by briefly pressing the reset button 32. In case both inverters cannot operate simultaneously for short short circuit in the load 6, it is necessary in one of the blocks 14 or 15 to establish a jumper between terminals 33 and 34. For normal operation of the unit during a short circuit in load 9, block 17 sets a jumper at terminals 33 and 34. When a short circuit occurs in load 9, the threshold element 23 is triggered, the trigger 24 changes its state, which causes the contactor to turn off 10. A short circuit in the load 9 "is burned by the backup slug 11. If the duration of the short circuit does not exceed the permissible value for the unit and the load, then the unit provides after the end of the short circuit in the load 9 9 loads 25 can in load 9 load connection 9    - - to inverters 1 and 2. If the duration of the short circuit exceeds the permissible value, then the load 9 is de-energized, since at the outputs of the elements OR 20 and AND-NO 28 blocks 17 and 18 are formed in the last 30 case, the signals "1, leading to the disconnection of the contactor 10. The operation of blocks 17 and 8 in these modes is similar to the described operation of blocks 14 and 15 with regard to the presence of a jumper on terminals 33 and 34. Subcontrol 19 is used to output any of the contactors for maintenance, by means of which the signal "1" is formed at the second input of the element OR 20, and the contactor operating on the load is switched off. As contactors 3, 4, 7 and 10, high-speed contactors (shutdown time up to 1 ms) can be used based on single-operation thyristors with forced-power nodes, based on power transistors and lockable thyristors. For contactors based on power transistors and lockable thyristors, shaper 31 forms control signals that are locked to these elements. Invention Formula 45 50  55 and second contactors An uninterruptible power supply unit containing the first and second inverters with disconnecting means and one of the loads, the first and second inverter control blocks, the control inputs of which are connected to the corresponding inverters, the first the inputs of which are connected to the outputs of the respective inverters, and the outputs are combined and connected to the outputs for non-switchable load. the third and fourth contactors, the inputs of which are connected respectively to the combined output of the first and second contactors and to the backup source, and the outputs are combined and connected to the terminals for switchable load, the OR element, the first and second contactors control units, the control outputs of which are connected respectively to the first and the second contactors, the stop inputs to the emergency outputs of the first and second inverter control units, respectively, and the CTOJIO outputs to the OR element, the third and fourth terminal control units tactors whose control outputs are connected to the third and fourth contactors respectively, the table input of the third contactor control unit is connected to the output of the OR element, and the start output of the third contactor control unit is connected to the stop input of the fourth contactor control unit, characterized in that the functionality of redundant uninterruptible power supply units of the extensive load, it is additionally equipped with the first and second current sensors installed in the circuits respectively, disconnected and disconnected loads, and the first, second, third and fourth control units of the contactors are equipped with control inputs, and the control inputs of the first and second control units of the contactors are combined and connected to the first current sensor, the control inputs of the third and fourth control blocks of the contactors are connected to the second sensor current, each of the control units of the contactor contains a subblock control, which is a two-position, one input of which is connected to power supply and the other to the neutral wire a switch, three OR elements, a threshold element, two triggers, two delay elements, two control pulse shapers, two NAND elements, a reset button and two terminals, the first input of the first OR element is the stop input of the control unit, the second key input to the output of the subblock control, the third input to the first terminal, the output of the first element OR is connected to the inputs of the first and the second control pulse formers, whose outputs are used by the control outputs of the control unit, and to the first inputs of the second OR element and the first NAND element, the input of the threshold element is used by the monitoring input of the control unit, the output of the threshold element is connected to the first input of the third element OR to the stop input of the first trigger, the start input of which is connected to the output of the second delay element, 0 the first output of the first trigger is connected to the second terminal, to the second input of the second element OR, the output of which is used by the stop output of the control unit, and to the first input of the second element NAND, the second output of the first trigger is connected to the input of the first delay element, the output of which is connected to the second input of the third element OR, the output of which is connected to the stop input of the second trigger, the start input of which is connected to the first Q to the output of the reset button, the second output of which is connected to the neutral wire, the first output of the second trigger is connected to the fourth input of the first OR element, the second to the second input of the first NAND element, the output of which is used by the starting output of the control unit, and to the second input of the second element NAND whose output is connected to the input of the second delay element. five 1) up to 1H CNJ i