CN209267441U - The active PFC circuit and frequency changing driving system of Anti-surging - Google Patents

Abstract

The utility model provides the active PFC circuit and frequency changing driving system of a kind of Anti-surging, it include: the active PFC circuit for the input AC electricity through over commutation to be converted to the Anti-surging of DC bus-bar voltage, including PFC main circuit and the anti-surge circuit being parallel between PFC main circuit input terminal and output end；For converting DC bus-bar voltage to the inverter of output alternating current；The load operated by output exchange electric drive.The utility model protects active PFC circuit from the impact of surge voltage by the active PFC circuit of Anti-surging；Anti-surging device is protected when active PFC circuit works in uncontrollable rectifier mode simultaneously, avoids bearing high current and damage of generating heat for a long time, it is ensured that the validity of surging prevention, and then greatly promote the reliability of active PFC circuit；Meanwhile the power device in the rectifier of the utility model front end, without the impact for bearing surge voltage, selection meets the device of normal design pressure voltage, effectively reduces device cost.

Description

The active PFC circuit and frequency changing driving system of Anti-surging

Technical field

The utility model relates to circuit design fields, and the active PFC circuit and frequency conversion more particularly to a kind of Anti-surging are driven Dynamic system.

Background technique

In order to inhibit the generation of harmonic wave, while increase power factor, active PFC circuit are introduced into frequency changing driving system. Due to the complicated multiplicity of the working environment of frequency changing driving system, have the characteristics that operation power is wide, frequency is high and the fluctuation of load is big, because This, proposes very high requirement to the reliability of active PFC circuit.

Surge is that crossing for generation operates inside the overvoltage (overcurrent) that circuit generates when by being struck by lightning or electrical system Voltage (overcurrent) is a kind of transition interference.If without restriction to surge will lead to various devices in system or device Malfunction is even failed, this to reliability and the higher equipment of stability requirement particularly with active PFC circuit, directly facing Power grid is more easier the damage for how preventing surge voltage (electric current) to device by surge impact, it is ensured that its circuit function has Effect carries out, it has also become one of those skilled in the art's urgent problem to be solved.

Utility model content

In view of the foregoing deficiencies of prior art, the purpose of this utility model is to provide a kind of the active of Anti-surging Pfc circuit and frequency changing driving system generate stability, the reliability of active PFC circuit for solving surge voltage or electric current The problem of influence, while improving anti-surge circuit itself validity, reliability.

In order to achieve the above objects and other related objects, the utility model provides a kind of active PFC circuit of Anti-surging, institute The active PFC circuit for stating Anti-surging includes at least:

PFC main circuit and anti-surge circuit, the PFC main circuit are booster circuit, and the anti-surge circuit is parallel to institute It states between the input terminal and output end of PFC main circuit, and conduction voltage drop when anti-surge circuit conducting is greater than the PFC master The conduction voltage drop of booster diode in circuit；

Wherein, the anti-surge circuit includes first diode, and the anode of the first diode connects the main electricity of PFC The input terminal on road, the cathode of the first diode connect the output end of the PFC main circuit, the positive guide of first diode It is logical, it is reversed to end.

Optionally, the first diode includes rectifier diode.

More optionally, the PFC main circuit includes reactor, power switch tube and the booster diode；

The first end of the reactor connects the input terminal of the PFC main circuit, and the second end of the reactor connects institute The anode of booster diode is stated, the cathode of the booster diode connects the output end of the PFC main circuit；The power switch Pipe is connected to the anode of the booster diode and with reference between ground；

The anti-surge circuit is parallel between the first end of the reactor and the cathode of the booster diode.

Optionally, the anti-surge circuit further includes the second diode；The anode of the first diode connects the PFC The input terminal of main circuit, the cathode of the first diode connect the anode of second diode, second diode Cathode connects the output end of the PFC main circuit；Or the anode of second diode connects the input of the PFC main circuit End, the cathode of second diode connect the anode of the first diode, described in the cathode connection of the first diode The output end of PFC main circuit；The sum of conduction voltage drop when the first diode and second diode current flow is greater than described The conduction voltage drop of booster diode described in PFC main circuit.

More optionally, second diode includes rectifier diode, Transient Suppression Diode.

Optionally, the anti-surge circuit further includes third diode；The anode of the first diode connects the PFC The input terminal of main circuit, the cathode of the first diode connect the cathode of the third diode, the third diode Anode connects the output end of the PFC main circuit；Or the cathode of the third diode connects the input of the PFC main circuit End, the anode of the third diode connect the anode of the first diode, described in the cathode connection of the first diode The output end of PFC main circuit；The sum of conduction voltage drop when the first diode and the third diode current flow is greater than described The conduction voltage drop of booster diode described in PFC main circuit；The third diode forward conducting, back clamping.

More optionally, the third diode includes Transient Suppression Diode.

Optionally, the anti-surge circuit further includes resistance；The anode of the first diode connects the PFC main circuit Input terminal, the cathode of the first diode connects the first end of the resistance, and the second end of the resistance connects the PFC The output end of main circuit；Or the first end of the resistance connects the input terminal of the PFC main circuit, the second end of the resistance The anode of the first diode is connected, the cathode of the first diode connects the output end of the PFC main circuit；Described The sum of conduction voltage drop when one diode and the resistance are connected is greater than the conducting of booster diode described in the PFC main circuit Pressure drop.

More optionally, the resistance includes posive temperature coefficient thermistor.

In order to achieve the above objects and other related objects, the utility model also provides a kind of frequency changing driving system, the change Frequency drive system includes at least:

Rectifier, connection input AC electricity, for rectifying the input AC electricity；

The active PFC circuit of above-mentioned Anti-surging is connected to the output end of the rectifier, for will be through the input of over commutation Alternating current is converted to DC bus-bar voltage；

Inverter is connected to the output end of the active PFC circuit of the Anti-surging, for turning the DC bus-bar voltage Turn to output alternating current；

Load, is connected to the output end of the inverter, and the load is operated by the driving of the output alternating current.

As described above, the active PFC circuit and frequency changing driving system of the Anti-surging of the utility model, have below beneficial to effect Fruit:

The active PFC circuit and frequency changing driving system of the Anti-surging of the utility model are protected active by anti-surge circuit Impact of the pfc circuit from surge voltage；Anti-surging device is protected when active PFC circuit works in uncontrollable rectifier mode simultaneously Part avoids bearing high current and damage of generating heat for a long time, it is ensured that the validity of surging prevention, and then it is practical newly to greatly promote this The active PFC circuit of the Anti-surging of type and the reliability of frequency changing driving system and stability.

With the active PFC circuit of the Anti-surging of the utility model, moreover it is possible to so that the power in its front-end rectifier Device, to need to only select the device for meeting normal design pressure voltage, is effectively dropped without the impact of surge voltage is born Low device cost.

Detailed description of the invention

Fig. 1 is shown as the structural schematic diagram of the first embodiment of the active PFC circuit of the Anti-surging of the utility model.

Fig. 2 is shown as the structural schematic diagram of second of embodiment of the active PFC circuit of the Anti-surging of the utility model.

Fig. 3 is shown as the structural schematic diagram of the third embodiment of the active PFC circuit of the Anti-surging of the utility model.

Fig. 4 is shown as the structural schematic diagram of the 4th kind of embodiment of the active PFC circuit of the Anti-surging of the utility model.

Fig. 5 is shown as the structural schematic diagram of the frequency changing driving system of the utility model.

Component label instructions

The active PFC circuit of 1 Anti-surging

11PFC main circuit

12 anti-surge circuits

2 rectifiers

3 inverters

4 loads

Specific embodiment

Illustrate the embodiments of the present invention below by way of specific specific example, those skilled in the art can be by this theory Content disclosed by bright book understands other advantages and effect of the utility model easily.The utility model can also be by addition Different specific embodiments are embodied or practiced, and the various details in this specification can also be based on different viewpoints and answer With carrying out various modifications or alterations under the spirit without departing from the utility model.

Please refer to FIG. 1 to FIG. 5.It should be noted that diagram provided in the present embodiment only illustrates this in a schematic way The basic conception of utility model is only shown with related component in the utility model rather than when according to actual implementation in schema then Component count, shape and size are drawn, when actual implementation kenel, quantity and the ratio of each component can arbitrarily change for one kind Become, and its assembly layout kenel may also be increasingly complex.

Embodiment one

As shown in Figure 1, the present embodiment provides a kind of active PFC circuit 1 of Anti-surging, the active PFC electricity of the Anti-surging Road 1 includes:

PFC main circuit 11 and anti-surge circuit 12, the PFC main circuit are booster circuit.

As shown in Figure 1, the PFC main circuit 11 is used to the alternating voltage through over commutation being converted to DC bus-bar voltage.

Specifically, in the present embodiment, the PFC main circuit 11 is one of booster circuit, specifically includes reactor Lpfc, power switch tube S 1 and booster diode D1.One end of the reactor Lpfc connects the input of the PFC main circuit 11 Vi is held, the other end connects the anode of the booster diode D1, and the cathode of the booster diode D1 connects the PFC main circuit 11 output end vo, in the present embodiment, the output voltage of the PFC main circuit 11 is DC bus-bar voltage；The power The collector of switching tube S1 connects the anode of the booster diode D1, and emitter connection connects drive module with reference to ground, gate pole (not shown).

It should be noted that the PFC boost circuit of different topology structure can be selected as needed in actual use, such as Staggered-parallel-type PFC boost circuit.

It should be noted that in the present embodiment, the power switch tube S 1 is insulated gate bipolar transistor；In reality The type of the power switch tube S 1 can be set as needed in use, including but not limited to Metal-Oxide Semiconductor field is imitated Transistor is answered, at this point, the drain electrode of the power switch tube S 1 connects the anode of the booster diode D1, source electrode connection reference Ground, grid connect the drive module.

As shown in Figure 1, the anti-surge circuit 12 is parallel between the input terminal and output end of the PFC main circuit 11, The conduction voltage drop when anti-surge circuit 12 is connected is greater than the conducting pressure of booster diode D1 described in the PFC main circuit 11 Drop.

Specifically, in the present embodiment, the anti-surge circuit 12 includes first diode D2；The first diode D2 Anode connect the input terminal of the PFC main circuit 12, the cathode of the first diode D2 connects the booster diode D1 Cathode, and the first diode D2 forward conduction is reversed to end.

It should be noted that in the present embodiment, the first diode D2 uses rectifier diode (Rectifier Diode, RD).In practical applications, the first diode D2 includes but is not limited to rectifier diode, general-purpose diode, arbitrarily The out-of-date conducting of electric current forward stream, cut-off when flowing counterflow through (can have a leakage current, but a leakage current very little, in cut-off when reversed State) device be suitable for the utility model, be not limited to this embodiment.

It should be noted that in the present embodiment, the conduction voltage drop when anti-surge circuit 12 is connected is described the The conduction voltage drop of one diode D2.

As a kind of implementation of the present embodiment, in the present embodiment, the active PFC circuit 1 of the Anti-surging is also wrapped It includes the input terminal for being connected to the PFC main circuit 11 and with reference to the filter capacitor C1 between ground, is used for the PFC main circuit 11 The output voltage of front-end rectifier is filtered.

As a kind of implementation of the present embodiment, in the present embodiment, the active PFC circuit 1 of the Anti-surging is also wrapped The output end for being connected to the PFC main circuit 11 is included and with reference to the smoothing capacity C2 between ground, for balancing input power and defeated Power out.

It should be noted that in the present embodiment, the smoothing capacity C2 is a capacitor, in actual use, described Smoothing capacity C2 can be the series and parallel or series-parallel of multiple capacitors, be not limited to this embodiment.

Specifically, when the PFC main circuit 11 works normally, the voltage of 11 input terminal of PFC main circuit is lower than defeated The voltage of outlet, therefore the anti-surge circuit 12 is not turned on.When surge occurs, surge voltage makes the PFC main circuit The voltage of 11 input terminals is higher than the voltage of output end, and the first diode D2 is connected, and often due to the PFC main circuit 11 The capacitance of input filtering capacitor C1 is much smaller than the capacitance of output end smoothing capacity C2, therefore the PFC main circuit when rule application The voltage of 11 input terminals is clamped as the voltage of 11 output end of PFC main circuit, so protect the PFC main circuit 11 from The impact of surge voltage.Also, also due to the voltage of 11 input terminal of PFC main circuit is clamped as the PFC main circuit The voltage of 11 output ends so that power device in 11 front-end rectifier of PFC main circuit without bearing surge voltage and Only it is subjected to the voltage of 11 output end of PFC main circuit, therefore the power in 11 front-end rectifier of PFC main circuit The selection of device need to only meet normal design pressure voltage, without the specifications and models for selecting that there is more high voltage value, thus Effectively reduce device cost.When the PFC main circuit 11 is in the uncontrollable rectifier operating mode (power switch tube S 1 not work Make, and the PFC main circuit 11 still has voltage input and output) when, conducting pressure when due to first diode D2 conducting (frequency is power frequency, the reactor Lpfc to conduction voltage drop of the drop greater than the booster diode D1 when uncontrollable rectifier operating mode It is equivalent to conducting wire, therefore the pressure drop at the both ends the reactor Lpfc can be ignored), then most of stream in the power current inputted Through the booster diode D1, and fraction flows through the first diode D2, thus when avoiding the first diode D2 long Between bear high current and damage of generating heat, lose the effect of Anti-surging.

Embodiment two

As shown in Fig. 2, existing the present embodiment provides a kind of active PFC circuit 1 of Anti-surging with the difference of embodiment one In the anti-surge circuit 12 further includes the second diode D3.

Specifically, the anti-surge circuit 12 includes first diode D2 and the second diode D3；The first diode The anode of D2 connects the input terminal of the PFC main circuit 11, and the cathode of the first diode D2 connects second diode The cathode of the anode of D3, the second diode D3 connects the output end of the PFC main circuit 11.The anti-surge circuit 12 Conduction voltage drop is the first diode D2 and the sum of conduction voltage drop when the second diode D3 is both turned on, and described first The sum of conduction voltage drop when diode D2 and the second diode D3 are both turned on is greater than boosting described in the PFC main circuit 11 The conduction voltage drop of diode D1, but the conduction voltage drop of second diode of the first diode D2 or described D3 is smaller than the liter Press the conduction voltage drop of diode D1.

It should be noted that in the present embodiment, the second diode D3 uses rectifier diode, in practical application In, the second diode D3 includes but is not limited to rectifier diode, Transient Suppression Diode (Transient Voltage Suppressor, TVS), general-purpose diode, the device of any out-of-date conducting of electric current forward stream is suitable for the utility model, no It is limited with the present embodiment.

It should be noted that the position of the second diode D3 and the first diode D2 are interchangeable, with concatenated Mode connects, i.e., the anode of the described second diode D3 connects the input terminal of the PFC main circuit 11, the two or two pole The cathode of pipe D3 connects the anode of the first diode D2, and the cathode of the first diode D2 connects the PFC main circuit 11 output end.

It should be noted that in practical applications, can also connect one or more two poles in the anti-surge circuit 12 Pipe (device of any out-of-date conducting of electric current forward stream is applicable in), each diode is sequentially connected in series, and connection relationship can be according to this reality The first diode D2 and the second diode D3 for applying example analogize to obtain, and will not repeat them here.

Specifically, referring to the working principle of above-described embodiment one, when surge occurs, surge voltage makes the described 1st Pole pipe D2 and the second diode D3 are both turned on, and the voltage of 11 input terminal of PFC main circuit is clamped as the main electricity of the PFC The voltage of 11 output end of road, and then protect the PFC main circuit 11 from the impact of surge voltage.And work as the PFC main circuit 11 when being in uncontrollable rectifier operating mode, conducting when being both turned on due to the first diode D2 and the second diode D3 The sum of pressure drop is greater than the conduction voltage drop of the booster diode D1, then the major part in power current inputted flows through the boosting Diode D1, and fraction flows through the first diode D2 and the second diode D3, to avoid the one or two pole Pipe D2 and the second diode D3 bear high current and damage of generating heat for a long time, lose the effect of Anti-surging.

Embodiment three

As shown in figure 3, existing the present embodiment provides a kind of active PFC circuit 1 of Anti-surging with the difference of embodiment one In the anti-surge circuit 12 further includes third diode D4.

Specifically, the anti-surge circuit 12 includes first diode D2 and third diode D4；The first diode The anode of D2 connects the input terminal of the PFC main circuit 11, and the cathode of the first diode D2 connects the third diode The anode of the cathode of D4, the third diode D4 connects the output end of the PFC main circuit 11.The anti-surge circuit 12 Conduction voltage drop is the first diode D2 and the sum of the conduction voltage drop when third diode D4 is both turned on, and described first The sum of conduction voltage drop when diode D2 and the third diode D4 are both turned on is greater than boosting described in the PFC main circuit 11 The conduction voltage drop of diode D1, but the conduction voltage drop of the first diode D2 or the third diode D4 be smaller than it is described The conduction voltage drop of booster diode D1 described in PFC main circuit 11.

It should be noted that in the present embodiment, the third diode D4 uses Transient Suppression Diode.Actually answering In, the third diode D4 includes but is not limited to unidirectional Transient Suppression Diode, two-way Transient Suppression Diode, any electricity The out-of-date conducting of forward stream is flowed, both end voltage clamp is suitable for originally practical new in the device of a predetermined value when electric current flows counterflow through Type is not limited to this embodiment.

It should be noted that in the present embodiment, the conduction voltage drop of the third diode D4 refers to the three or two pole The reverse turn-on voltages of pipe D4, i.e. clamp voltage.

It should be noted that the position of the third diode D4 and the first diode D2 are interchangeable, with concatenated Mode connects, i.e., the cathode of the described third diode D4 connects the input terminal of the PFC main circuit 11, the three or two pole The anode of pipe D4 connects the anode of the first diode D2, and the cathode of the first diode D2 connects the PFC main circuit 11 output end.

It should be noted that the quantity of the first diode D2 and third diode D4 may include it is multiple, with string The mode of connection connects, and sequence is unlimited, will not repeat them here.

Specifically, referring to the working principle of above-described embodiment one, when surge occurs, surge voltage makes the described 1st Pole pipe D2 and the third diode D4 are both turned on, and the voltage of 11 input terminal of PFC main circuit is clamped as the main electricity of the PFC The sum of voltage and the clamp voltage (generally a few~tens volts of volts) of third diode D4 of 11 output end of road, and then described in protection Impact of the PFC main circuit 11 from surge voltage.And when the PFC main circuit 11 is in the operating mode of uncontrollable rectifier, by The conduction voltage drop of the booster diode D1, thus the first diode D2 are much larger than in the clamp voltage of third diode D4 Conduction voltage drop of the sum of conduction voltage drop when being both turned on the third diode D4 also much larger than the booster diode D1, then The overwhelming majority in the power current of input flows through the booster diode D1, and only very little part flows through the one or two pole The pipe D2 and third diode D4, so that it is big to avoid the first diode D2 and third diode D4 from bearing for a long time Electric current and damage of generating heat, lose the effect of Anti-surging, and then can ensure that the validity of surging prevention, improve circuit reliability.

Example IV

As shown in figure 4, existing the present embodiment provides a kind of active PFC circuit 1 of Anti-surging with the difference of embodiment one In the anti-surge circuit 12 further includes resistance R.

Specifically, the anti-surge circuit 12 includes first diode D2 and resistance R；The anode of the first diode D2 The input terminal of the PFC main circuit 11 is connected, the cathode of the first diode D2 connects one end of the resistance R, the electricity The other end of resistance R connects the output end of the PFC main circuit 11.The conduction voltage drop when anti-surge circuit 12 is connected is institute The sum of conduction voltage drop when first diode D2 and resistance R is both turned on is stated, the first diode D2 and resistance R's The sum of conduction voltage drop is greater than the conduction voltage drop of booster diode D1 described in the PFC main circuit, but the first diode D2 Or the conduction voltage drop of the resistance R is smaller than the conduction voltage drop of booster diode D1 described in the PFC main circuit 11.

It should be noted that in the present embodiment, the resistance R uses posive temperature coefficient thermistor (Positive Temperature Coefficient, PTC).In practical applications, the resistance R includes but is not limited to conventional, electric-resistance, positive temperature Coefficient resistance is spent, is arbitrarily able to bear certain power, electric current flows through can generate the device of pressure drop and be suitable for that this is practical It is novel, it is not limited to this embodiment.

It should be noted that the position of the first diode D2 and the resistance R are interchangeable, it is connected in series to , i.e., one end of the described resistance R connects the input terminal of the PFC main circuit 11, the other end connection of the resistance R described the The anode of one diode D2, the cathode of the first diode D2 connect the output end of the PFC main circuit 11.

It should be noted that the quantity of the first diode D2 and resistance R may include it is multiple, in series Connection, sequence is unlimited, will not repeat them here.

Specifically, referring to the working principle of above-described embodiment one, when surge occurs, surge voltage makes the described 1st Pole pipe D2 conducting, the voltage of 11 input terminal of PFC main circuit are clamped as the voltage of 11 output end of PFC main circuit, into And protect the PFC main circuit 11 from the impact of surge voltage.And when the PFC main circuit 11 is in the work of uncontrollable rectifier When mode, for conventional, electric-resistance, having electric current to flow through can produce pressure drop, and the resistance value of conventional, electric-resistance can be fitted according to design parameter When selection, guarantee that the sum of pressure drop of the first diode D2 and resistance R is greater than two poles of the boosting when uncontrollable rectifier The pressure drop of pipe D1, at this point, the major part in the power current of input flows through the booster diode D1, and fraction flows through The first diode D2 and resistance R, so that the first diode D2 and resistance R be avoided to bear big electricity for a long time It flows and damage of generating heat；For posive temperature coefficient thermistor, due to posive temperature coefficient thermistor when temperature is higher resistance value Bigger, after the first diode D2 conducting, the resistance R bears electric current and then generating heat causes its resistance value to become larger, then the electricity Resistance R pressure drop become larger, so that the first diode D2 and the sum of the pressure drop of the resistance R is become larger, the first diode D2 and The current reduction that the resistance R is born, the then major part in power current inputted flow through the booster diode D1, and small portion Shunt through the first diode D2 and resistance R, thus avoid the first diode D2 from bearing high current for a long time and Fever damage, loses the effect of Anti-surging, and then can ensure that the validity of surging prevention, improves circuit reliability.

Embodiment five

As shown in figure 5, the present embodiment provides a kind of frequency changing driving system, the frequency changing driving system includes:

Rectifier 2, the active PFC circuit 1 of Anti-surging, inverter 3 and load 4.

As shown in figure 5, the rectifier 2 receives input AC electricity Vac, the input AC electricity Vac is rectified.

Specifically, in the present embodiment, the input terminal of the rectifier 2 is separately connected the fire of the input AC electricity Vac Line L and zero curve N, the rectifier 2 include four diodes, and four diodes constitute rectifier bridge structure.

As shown in figure 5, the active PFC circuit 1 of the Anti-surging, is connected to the output end of the rectifier 2, for will be through Input AC electricity Vac after rectification is converted to DC bus-bar voltage.

Specifically, the structure of the active PFC circuit 1 of the Anti-surging can be used any one in one~example IV of embodiment Kind, it will not repeat them here.

As shown in figure 5, the inverter 3 is connected to the output end of the active PFC circuit 1 of the Anti-surging, it is used for institute It states DC bus-bar voltage and is converted into output alternating current.

Specifically, the structure of the inverter 3 can select any one structure as needed, be not limited to this embodiment. In the present embodiment, the inverter 3 includes six power switch tubes, constitutes three phase inverter bridge, and specific structure is herein not one by one It repeats.In the present embodiment, each power switch tube is insulated gate bipolar transistor in the inverter 3, in actual use The type of each power switch tube can be set as needed.The three-phase output end of the inverter circuit 3 connects the three-phase of the load 4 Input terminal.

As shown in figure 5, the load 4 is connected to the output end of the inverter 3, the load 4 is exchanged by the output The driving operating of electricity.

Specifically, in the present embodiment, the load 4 is three-phase motor, when threephase stator winding (each difference of motor 120 degree of electrical angles) be passed through output alternating current after, a rotating excitation field will be generated, the rotating excitation field cutting rotor winding, thus Induced current is generated in rotor windings.

It should be noted that in actual use, the load 4 includes but is not limited to that monophase machine or other electricity consumptions are set Standby, the structure of the inverter 3 makes the modification of adaptability, will not repeat them here.

With the active PFC circuit 1 of the Anti-surging of the utility model, by by the main electricity of the PFC when surge occurs The voltage of 11 input terminal of road is clamped as the voltage of 11 output end of PFC main circuit, so that the power device in the rectifier 2 Part is only subjected to the voltage of 1 output end of active PFC circuit of the Anti-surging, therefore institute without receiving surge voltage The selection for stating the power device in rectifier 2 need to only meet normal design pressure voltage, have more high voltage without selection The specifications and models of value, to effectively reduce device cost.

It is various that the frequency changing driving system of the present embodiment can be used for household electrical appliance (such as convertible frequency air-conditioner), industrial current transformer etc. Applied power electronics field.

Active PFC circuit 1 based on the Anti-surging, the frequency changing driving system of the present embodiment be greatly improved stability and Reliability.

In conclusion the utility model provides the active PFC circuit and frequency changing driving system of a kind of Anti-surging, comprising: anti- The active PFC circuit of surge, for the input AC electricity through over commutation to be converted to DC bus-bar voltage, wherein Anti-surging Active PFC circuit includes PFC main circuit and anti-surge circuit, and the anti-surge circuit is parallel to the input of the PFC main circuit Between output end；Inverter is connected to the output end of the active PFC circuit of the Anti-surging, for the DC bus is electric Pressure is converted into output alternating current；Load is connected to the output end of the inverter, drive of the load by the output alternating current Dynamic operating.The active PFC circuit and frequency changing driving system of the Anti-surging of the utility model protect active PFC by anti-surge circuit Impact of the circuit from surge voltage；Anti-surging device is protected when active PFC circuit works in uncontrollable rectifier mode simultaneously, is kept away Exempt to bear high current and damage of generating heat for a long time, it is ensured that the validity of surging prevention, and then greatly promote the utility model The active PFC circuit of Anti-surging and the reliability of frequency changing driving system.Meanwhile having with the Anti-surging of the utility model Source pfc circuit can also make the power device in its front-end rectifier without the impact for bearing surge voltage, to only need to select The device for meeting normal design pressure voltage is selected, device cost is effectively reduced.So the utility model effectively overcomes now There is the various shortcoming in technology and has high industrial utilization value.

The above embodiments are only illustrative of the principle and efficacy of the utility model, and not for limitation, this is practical new Type.Any person skilled in the art can all carry out above-described embodiment under the spirit and scope without prejudice to the utility model Modifications and changes.Therefore, such as those of ordinary skill in the art without departing from the revealed essence of the utility model All equivalent modifications or change completed under mind and technical idea, should be covered by the claim of the utility model.

Claims (10)

1. a kind of active PFC circuit of Anti-surging, which is characterized in that the active PFC circuit of the Anti-surging includes at least:

PFC main circuit and anti-surge circuit, the PFC main circuit are booster circuit, and the anti-surge circuit is parallel to the PFC Between the input terminal and output end of main circuit, and conduction voltage drop when anti-surge circuit conducting is greater than the PFC main circuit The conduction voltage drop of middle booster diode；

Wherein, the anti-surge circuit includes first diode, and the anode of the first diode connects the PFC main circuit Input terminal, the cathode of the first diode connect the output end of the PFC main circuit, the first diode forward conduction, Reversed cut-off.

2. the active PFC circuit of Anti-surging according to claim 1, it is characterised in that: the first diode includes whole Flow diode.

3. the active PFC circuit of Anti-surging according to claim 1, it is characterised in that: the PFC main circuit includes reactance Device, power switch tube and the booster diode；

The first end of the reactor connects the input terminal of the PFC main circuit, and the second end of the reactor connects the liter The anode of diode is pressed, the cathode of the booster diode connects the output end of the PFC main circuit；The power switch tube connects It is connected to the anode of the booster diode and with reference between ground；

The anti-surge circuit is parallel between the first end of the reactor and the cathode of the booster diode.

4. the active PFC circuit of Anti-surging according to claim 1, it is characterised in that: the anti-surge circuit further includes Second diode；The anode of the first diode connects the input terminal of the PFC main circuit, the cathode of the first diode The anode of second diode is connected, the cathode of second diode connects the output end of the PFC main circuit；Or institute The anode for stating the second diode connects the input terminal of the PFC main circuit, the cathode connection described first of second diode The anode of diode, the cathode of the first diode connect the output end of the PFC main circuit；The first diode and institute The sum of conduction voltage drop when stating the second diode current flow is greater than the conduction voltage drop of booster diode described in the PFC main circuit.

5. the active PFC circuit of Anti-surging according to claim 4, it is characterised in that: second diode includes whole Flow diode, Transient Suppression Diode.

6. the active PFC circuit of Anti-surging according to claim 1, it is characterised in that: the anti-surge circuit further includes Third diode；The anode of the first diode connects the input terminal of the PFC main circuit, the cathode of the first diode The cathode of the third diode is connected, the anode of the third diode connects the output end of the PFC main circuit；Or institute The cathode for stating third diode connects the input terminal of the PFC main circuit, the anode connection described first of the third diode The anode of diode, the cathode of the first diode connect the output end of the PFC main circuit；The first diode and institute The sum of conduction voltage drop when stating third diode current flow is greater than the conduction voltage drop of booster diode described in the PFC main circuit； The third diode forward conducting, back clamping.

7. the active PFC circuit of Anti-surging according to claim 6, it is characterised in that: the third diode includes wink State inhibits diode.

8. the active PFC circuit of Anti-surging according to claim 1, it is characterised in that: the anti-surge circuit further includes Resistance；The anode of the first diode connects the input terminal of the PFC main circuit, and the cathode of the first diode connects institute The first end of resistance is stated, the second end of the resistance connects the output end of the PFC main circuit；Or the first end of the resistance Connecting the input terminal of the PFC main circuit, the second end of the resistance connects the anode of the first diode, and the described 1st The cathode of pole pipe connects the output end of the PFC main circuit；The conduction voltage drop when first diode and the resistance are connected The sum of be greater than the PFC main circuit described in booster diode conduction voltage drop.

9. the active PFC circuit of Anti-surging according to claim 8, it is characterised in that: the resistance includes positive temperature system Number thermistor.

10. a kind of frequency changing driving system, which is characterized in that the frequency changing driving system includes at least:

Rectifier, connection input AC electricity, for rectifying the input AC electricity；

The active PFC circuit of Anti-surging as claimed in any one of claims 1 to 9 wherein, is connected to the output end of the rectifier, For the input AC electricity through over commutation to be converted to DC bus-bar voltage；

Inverter is connected to the output end of the active PFC circuit of the Anti-surging, for converting the DC bus-bar voltage to Export alternating current；

Load, is connected to the output end of the inverter, and the load is operated by the driving of the output alternating current.