CN1327590C - Static switch device for realizing uninterrupted power supply system switching control - Google Patents

Abstract

The present invention relates to a static switch device used for realizing switching control of an uninterruptible power system. The present invention has the technical scheme that a bidirectional thyristor is used as a static switch, circulating current caused by instant power break and arc at the time of switching a relay is overcome, and the break time of switching is 0mS; no circulating current between a power supply of a bypass mains supply and inverter feed is ensured by a bypass static switch and an inversion switch interlocking circuit; the output voltage of the thyristor of a bypass is adopted and is used for controlling the interlocking circuit, and the zero-current and zero-voltage switching is realized when the bypass mains supply is switched to the inverter power supply; the thyristor can automatically realize slow start in the process of power supply of an electric auxiliary power supply (double backup) on an uninterruptible power supply system, and corresponding output of the thyristor is realized after slow start according to control signals of the static switch. When the power supply of the thyristor is in low voltage because of accidental reasons, the thyristor can automatically close output to protection, and the reliability of the static switch system is improved.

Description

A kind of static switchgear that is used to realize the uninterruptible power system switching controls

Technical field

The present invention relates to a kind of static switchgear that is used to realize the uninterruptible power system switching controls, belong between the bypass civil power of realizing ac uninterrupted power supply and the inversion alternating current and switch and control technology, be specifically related to a kind of uninterruptible power system that is used for by exchanging the static switchgear that bypass power supply changes the inverter power supply power supply and delivered the stream bypass power supply by the inverter power supply power supply.

Background technology

Under the objective demand of computer network and communication network fast development promotes, current uninterruptible power system on a large amount of bases of introducing the microprocessor monitors technology, developed into a kind of intelligence uninterruptible power system.

When the user presses the uninterruptible power system panel-switch, after opening uninterruptible power system, uninterruptible power system powered to the load (at line voltage within the limits prescribed) by exchanging bypass in a period of time of start just, the inverter of uninterruptible power system is after no-load running is normal, and uninterruptible power system will be transformed into the inverter power supply power supply from mains-supplied under the control of microprocessor.

When the uninterruptible power system power supply in running, when running into following fault: 1) output goes out overload or short trouble; 2) uninterruptible power system is inner because ambient temperature or cooling fan fault cause the power device temperature too high; 3) uninterruptible power system inverter itself is out of order.Uninterruptible power system will be carried out from the inverter power supply power supply and switch to the interchange bypass power supply.After fault is got rid of, can switch again and get back to inverter power supply.

The switching device shifter that is used for above-mentioned two kinds of powering modes is exactly so-called static switch.Topmost problem is the circulation that switches between the interruption of power supply and the two groups of AC power in handoff procedure.

Fig. 1 is the modal static switch that switches by relay, but can produce instantaneous interruption when switching.Can form the composite switch of (in parallel) with high speed motion thyristor switch and relay switch for overcoming above-mentioned shortcoming, the thyristor static switch is connected relay switch connection when powering continuously during instantaneous power supply.But the method control circuit complexity, the discreteness of opening with opening time of relay is very big, and when the uninterruptible power system output loading is very heavy, there is the arcing phenomenon between the relay double-throw contact, makes inverter power supply and mains supply form circulation easily and burn uninterruptible power system.

Summary of the invention

Technical problem to be solved by this invention is exactly to overcome the shortcoming that exists in the background technology, a kind of employing bidirectional triode thyristor has been proposed, realize the static switchgear of uninterruptible power system switching controls, reliable and HO-break duration is 0mS when guaranteeing between mains-supplied power supply and inverter power supply to switch mutually, has guaranteed the reliability of uninterruptible power system power supply.

The present invention is achieved in that

A kind of static switchgear that is used to realize the uninterruptible power system switching controls is characterized in that: this device comprises:

Select turning circuit, be used to realize photoelectric coupler isolation, export the static switch control signal after photoelectric coupler isolation to the interlocking control circuit by gating signal to the static switch control signal;

The interlocking control circuit, accept to select the static switch control signal of turning circuit output, the output signal of bypass voltage detecting and controling circuit, the output signal of slow-start circuit, the control of PWM modulation signal, realize the output of bypass static switch drive signal or inversion static switch drive signal;

Described static switch control signal is after interlock process, by transformer coupled output, drive the corresponding bidirectional triode thyristor of main circuit, realize the switching of bypass and inversion power supply, described PWM modulation signal, being used for making can be by the transformer coupled main circuit of delivering to through the static switch drive signal of interlock process;

The output signal of described bypass voltage detecting and controling circuit is through interlock process, zero current and zero voltage switching when realizing transferring the inversion power supply to by bypass;

Main circuit, reception is through the bypass static switch drive signal or the inversion static switch drive signal of interlock process output, drive corresponding bidirectional triode thyristor, the nothing that realizes bypass mains supply and inverter power supply interrupts switching, and the voltage signal at bypass bi-directional thyristor switch two ends is delivered to the bypass voltage detecting and controling circuit;

The bypass voltage detecting and controling circuit, be used for detecting the voltage signal at main circuit bypass bi-directional thyristor switch two ends, the signal of corresponding output is delivered to the interlocking control circuit, realizes zero current and the zero voltage switching of bypass power supply to the inverter power supply power supply, realizes battery and the control of civil power different mode;

The slow-start circuit in uninterruptible power system powers on the accessory power supply power supply process, begins to block the output of static switch drive signal, the output of opening the interlocking control circuit after normal, when supply power voltage is under-voltage, block the output of static switch drive signal, to improve the reliability of system;

Described static switch control signal realizes inversion power supply, short-circuit protection, bypass power supply, four kinds of output modes of powered battery under microprocessor control;

Described selection turning circuit, gating signal be by photoelectric coupler isolation, will deliver to the interlocking control circuit by the static switch control signal of four kinds of output modes of microprocessor control;

When the photoelectrical coupler conducting, through the instantaneous charging of electric capacity, with the instantaneous high level that obtains, deliver to the bypass voltage detecting and controling circuit, during as accumulator drive, the instantaneous reset signal of interlocking control circuit is to guarantee the correct output of battery mode static switch control signal;

Described interlocking control circuit, by constituting with the gate control chip, being implemented in only has one road static switch drive signal to be output as high level in any case;

Described interlocking control circuit input comprises: the output signal of static switch control signal, bypass voltage detecting and controling circuit, PWM modulation signal, and described interlocking control circuit output comprises: the output signal of static switch drive signal, slow-start circuit;

Described main circuit, bypass civil power live wire and inverter power supply live wire are added to the input of corresponding bidirectional triode thyristor respectively;

Wherein the voltage signal at bypass bidirectional triode thyristor two ends is delivered to the bypass voltage detecting and controling circuit;

The high pressure at described corresponding bidirectional triode thyristor two ends absorbs electric capacity, is used for reducing when switching voltage stress;

Described bypass voltage detecting and controling circuit, form by rectifying device, photoelectrical coupler, with the voltage signal at bypass bidirectional triode thyristor two ends as input, relatively export through rectification, amplification and photoelectrical coupler, deliver to the interlocking control circuit, be used for realizing, have only after the voltage drop of bypass power supply static switch drive signal is got off by the handoff procedure of bypass to inversion, just by interlocking control circuit output inversion static switch drive signal, to have prevented circulation;

Described slow-start circuit is used to guarantee when uninterruptible power system starts that it all is zero that bypass static switch drive signal and inversion static switch drive signal begin, and misleads preventing;

When the supply power voltage that comes from accessory power supply from above freezing when being raised to a certain value, pressurizer is started working, the photoelectrical coupler conducting, supply power voltage is set up the slow-start process of bypass, inversion respectively by the charging of capacitance-resistance loop, makes output signal have high level to export;

The RC parameter in described bypass capacitance-resistance loop is littler than the RC parameter in inversion capacitance-resistance loop, guarantees that bypass output slow-start is faster than inversion slow-start;

Capacitor discharge when accessory power supply cuts out, supply power voltage need drop to when lower photoelectrical coupler and just can close, and are used in the unusual output of turn-offing the static switch drive signal when under-voltage of accessory power supply supply power voltage.

In the present invention, the uninterruptible power system system is according to the situation of operation, select the onunit circuit by switch, realize the difference output of control static switch under bypass, civil power, battery and short circuit, realize four kinds of pattern outputs of static switch, finish uninterruptible power system does not have circulation in the free of discontinuities of bypass mains-supplied and inverter power supply power supply highly reliable switching.

The present invention is owing to adopt bidirectional triode thyristor as static switch, overcome the circulation that instant cut-off when relay switches and arcing cause, and be 0mS break period when accomplishing to switch, and improves the reliability of uninterruptible power system electric power system.Adopt bypass static switch and inverse switch interlock circuit simultaneously, guaranteed not have circulation between bypass mains-supplied power supply and the inverter power supply, improved the reliability of uninterruptible power system electric power system.Sample bypass controllable silicon output voltage of the present invention also participates in the control of interlock circuit, realizes zero current and zero voltage switching when the bypass civil power is transformed into inverter power supply.In uninterruptible power system powered on accessory power supply (dual backup) power supply process, static switch energy self-actualization slow-start just made static switch that corresponding output be arranged according to the static switch control signal after slow-start is finished simultaneously.When the power supply of certain unexpected reason static switch was under-voltage, static switch can the oneself close output protection, improves the reliability of static switch.

Generally speaking, uninterruptible power system all will carry out the switching of bypass mains-supplied and inverter power supply power supply.Adopt device of the present invention; can solve power supply micro breaks when switching and the circulation between two electric power systems; also realize the zero voltage switching of static switch bypass when inversion is switched simultaneously; realize the slow-start and the power supply under-voltage protection of static switch, improve the reliability of the whole electric power system of uninterruptible power system.And in existing uninterruptible power system static switchgear, adopt the combination of relay or relay and silicon controlled, the instantaneous interruption, circulation etc. that exist switching are switched unreliable shortcoming, are not suitable for the high occasion of reliability requirement, thereby have limited these broad application.The invention solves the defective and the deficiency that exist in the prior art, and can in other association area, use for reference employing.

Description of drawings

Fig. 1 is the simple relay static switch schematic diagram of using always;

Fig. 2 is the circuit block diagram of static switchgear of the present invention;

Fig. 3 selects turning circuit figure;

Fig. 4 is interlocking control circuit figure;

Fig. 5 is a main circuit diagram;

Fig. 6 is bypass voltage detecting and controling circuit figure;

Fig. 7 is the slow-start circuit diagram.

Embodiment

Below in conjunction with the drawings and the specific embodiments the present invention is described in further detail:

As shown in Figure 3: select turning circuit for static switch, gating signal is delivered to the interlocking control circuit by the isolation of photoelectrical coupler D1 and D2.The instantaneous reset signal of the VT6-b signal among Fig. 3 (during the D2 conducting capacitor C 4 instantaneous chargings and VT6-b instantaneous be high level) interlock circuit D6-8 pin during for accumulator drive, deliver to the bypass voltage detecting and controling circuit, guarantee that static switch has correct output under the battery mode.By the control of microprocessor, the P1, the P2 static switch control signal that obtain 4 kinds of different conditions are delivered to the interlocking control circuit to gating signal F1, F2.

As shown in Figure 4: be static switch interlocking control circuit, the core circuit of this circuit is by constituting with gate control chip D6 and D7, and guaranteeing under any circumstance only has one road static switch drive signal to be output as high level.Represent the drive signal of bypass static switch and inversion static switch respectively with DRV-B and DRV-N, P1 and P2 represent the static switch control signal that microprocessor system is given respectively, and then the control signal logical relation of input and output is as shown in the table:

Input		Output		Corresponding states	Remarks
						P1	P2	DRV-N	DRV-B
1	0	1	0	The inversion power supply
						0	1	0	0	Two-way is all obstructed	Short-circuit protection
0	0	0	1	Bypass power supply
						1	1	1	0	Powered battery

Input at interlock circuit is introduced the control signal that reflects bypass bidirectional triode thyristor voltage, and promptly the output signal N1 of bypass voltage detecting and controling circuit participates in control, introduces the output signal S1 and the S2 participation control of reflection bypass slow-start circuit at output.The PWM modulation signal participates in control, and the logic level signal that makes interlock circuit produce can be coupled to export and drive with transformer.

As shown in Figure 5: be the main circuit of static switch, bypass civil power live wire and inverter power supply live wire are added to the input of corresponding static switch respectively, and bypass civil power static switch output live wire and inverter power supply static switch output live wire couple together and power to the load as total output.In this element circuit, the voltage at the static controllable silicon of bypass two ends is also delivered to bypass voltage detecting control unit.Static switch controllable silicon two ends high pressure absorption capacitor C 23, C24, C25, C26 can reduce voltage stress when switching.

As shown in Figure 6: be the bypass voltage detecting and controling circuit, circuit is made up of peripheral components such as D14-17 and photoelectrical coupler D9.In the handoff procedure of inversion, have only the voltage drop of by-pass switch to get off in bypass, could open inverse switch, prevented circulation.Just come from switching to the inverter mode switching signal, but the words after if by-pass current does not also lower, because the not conducting of D9, thereby make that 9 pin of D6C are high level, this moment, 5 pin of D6B were low levels, it exports 4 pin is high level, so 10 pin of D6C are low levels, make the 4 pin output low levels of D7B, inverse switch can not conducting, after being added in bypass silicon controlled voltage commutation, can make photoelectrical coupler D9 conducting, promptly bypass silicon controlled electric current fall just conducting of very low photoelectrical coupler D9.When switching to inversion and switch, if F1 becomes high level, control signal is sent in very little generating positive and negative voltage scope at output voltage, then can realize zero voltage switching.

As shown in Figure 7: be static switch slow-start circuit diagram, Unit 205 of corresponding diagram 2.To begin all be zero for DRV-B and DRV-N when guaranteeing just to power on, and prevents to mislead, and the driving triggering signal of static switch needs the process of slow-start.When the supply power voltage Vc that comes from accessory power supply from above freezing when being raised to a certain value, three terminal regulator D10 starts working, photoelectrical coupler D11 conducting, and this moment, Vc gave C29 and C28 charging respectively by R42, R47 and R46, set up the slow-start process, S1 and S2 have high level output.Regulate above-mentioned parameter, guarantee that bypass output slow-start is faster than inversion slow-start.Because the conducting of VD20 is equivalent to resistance R 43 and R44 parallel connection, the R electrode potential of D10 improves, and Vc voltage need drop to that D11 just can close when lower.This slow-start circuit is in the unusual output that can also turn-off the two-way static switch when under-voltage of accessory power supply supply power voltage.Because uninterruptible power system output was in the bypass mode power supply when start had just powered on, the RC parameter of R46, C28 should be littler than the RC parameter of R47, C29.

Claims (7)

1. static switchgear that is used to realize the uninterruptible power system switching controls, it is characterized in that: this device comprises:

Select turning circuit, be used to realize photoelectric coupler isolation, the static switch control signal after photoelectric coupler isolation is inputed to the interlocking control circuit by gating signal to the static switch control signal;

The interlocking control circuit, accept to select the static switch control signal of turning circuit output, the output signal of bypass voltage detecting and controling circuit, the output signal of slow-start circuit, the control of PWM modulation signal, realize the output of bypass static switch drive signal or inversion static switch drive signal;

Described static switch control signal is after interlock process, by transformer coupled output, drive the corresponding bidirectional triode thyristor of main circuit, realize the switching of bypass and inversion power supply, described PWM modulation signal is used for the feasible static switch that can deliver to main circuit through the drive signal of interlock process by transformer coupled output;

The output signal of described bypass voltage detecting and controling circuit is through interlock process, zero current and zero voltage switching when realizing transferring the inversion power supply to by bypass;

Main circuit, reception is through the bypass static switch drive signal or the inversion static switch drive signal of interlock process output, drive corresponding bidirectional triode thyristor, the nothing that realizes bypass mains supply and inverter power supply interrupts switching, and the voltage signal at bypass bi-directional thyristor switch two ends is delivered to the bypass voltage detecting and controling circuit;

The bypass voltage detecting and controling circuit, be used for detecting the voltage signal at main circuit bypass bi-directional thyristor switch two ends, the signal of corresponding output is delivered to the interlocking control circuit, realizes zero current and the zero voltage switching of bypass power supply to the inverter power supply power supply, realizes battery and the control of civil power different mode;

The slow-start circuit in uninterruptible power system powers on the accessory power supply power supply process, begins to block the output of static switch drive signal, the output of opening the interlocking control circuit after normal, when supply power voltage is under-voltage, block the output of static switch drive signal, to improve the reliability of system.

2. be used to realize the static switchgear of uninterruptible power system switching controls according to claim 1, it is characterized in that:

Described static switch control signal realizes inversion power supply, short-circuit protection, bypass power supply, four kinds of output modes of powered battery under microprocessor control.

3. be used to realize the static switchgear of uninterruptible power system switching controls according to claim 1, it is characterized in that:

Described selection turning circuit, gating signal be by photoelectric coupler isolation, will deliver to the interlocking control circuit by the static switch control signal of four kinds of output modes of microprocessor control;

When the photoelectrical coupler conducting, through the instantaneous charging of electric capacity, with the instantaneous high level that obtains, deliver to the bypass voltage detecting and controling circuit, during as accumulator drive, the instantaneous reset signal of interlocking control circuit is to guarantee the correct output of battery mode static switch control signal.

4. be used to realize the static switchgear of uninterruptible power system switching controls according to claim 1, it is characterized in that:

Described interlocking control circuit, by constituting with the gate control chip, being implemented in only has one road static switch drive signal to be output as high level in any case;

Described interlocking control circuit input comprises: the output signal of static switch control signal, bypass voltage detecting and controling circuit, PWM modulation signal, described interlocking control circuit output comprises: the output signal of static switch drive signal, slow-start circuit.

5. be used to realize the static switchgear of uninterruptible power system switching controls according to claim 1, it is characterized in that:

Described main circuit, bypass civil power live wire and inverter power supply live wire are added to the input of corresponding bidirectional triode thyristor respectively;

Wherein the voltage signal at bypass bidirectional triode thyristor two ends is delivered to the bypass voltage detecting and controling circuit;

The high pressure at described corresponding bidirectional triode thyristor two ends absorbs electric capacity, is used for reducing when switching voltage stress.

6. be used to realize the static switchgear of uninterruptible power system switching controls according to claim 1, it is characterized in that:

Described bypass voltage detecting and controling circuit, form by rectifying device and photoelectrical coupler, with the voltage signal at bypass bidirectional triode thyristor two ends as input, relatively export through rectification, amplification and photoelectrical coupler, deliver to the interlocking control circuit, be used for realizing, have only after the voltage drop of bypass power supply static switch drive signal is got off by the handoff procedure of bypass to inversion, just by interlocking control circuit output inversion static switch drive signal, to have prevented circulation.

7. be used to realize the static switchgear of uninterruptible power system switching controls according to claim 1, it is characterized in that:

Described slow-start circuit is used to guarantee when uninterruptible power system starts that it all is zero that bypass static switch drive signal and inversion static switch drive signal begin, and misleads preventing;

When the supply power voltage that comes from accessory power supply from above freezing when being raised to a certain value, pressurizer is started working, the photoelectrical coupler conducting, supply power voltage is set up the slow-start process of bypass and inversion respectively by the charging of capacitance-resistance loop, makes output signal have high level to export;

The RC parameter in described bypass capacitance-resistance loop is littler than the RC parameter in inversion capacitance-resistance loop, guarantees that bypass output slow-start is faster than inversion slow-start;

Capacitor discharge when accessory power supply cuts out, supply power voltage need drop to when lower photoelectrical coupler and just can close, and are used in the unusual output of turn-offing the static switch drive signal when under-voltage of accessory power supply supply power voltage.

Images