CN110233564A

CN110233564A - Drive control circuit and household appliance

Info

Publication number: CN110233564A
Application number: CN201910605429.6A
Authority: CN
Inventors: 文先仕; 黄招彬; 曾贤杰; 张杰楠
Original assignee: Midea Group Co Ltd; Guangdong Midea Refrigeration Equipment Co Ltd
Current assignee: Midea Group Co Ltd; GD Midea Air Conditioning Equipment Co Ltd
Priority date: 2019-07-05
Filing date: 2019-07-05
Publication date: 2019-09-13
Also published as: JP7322274B2; WO2021003886A1; JP2022540098A

Abstract

The present invention provides a kind of drive control circuit and household appliances, wherein circuit includes: half-bridge circuit, half-bridge circuit accesses in bus circuit, half-bridge circuit is configured as carrying out conversion process to power supply signal, and half-bridge circuit specifically includes: switching tube, switching tube are configured with control terminal；Sampling resistor, it is series in the low-voltage bus bar in bus circuit, first compares mould group, first first input end for comparing mould group is configured as access bus reference signal, and first the first input end for comparing mould group be connected to the first end of sampling resistor, first the second input terminal for comparing mould group is configured as the second end of access sampling resistor, first output end for comparing mould group is connected to the control terminal of switching tube, if the partial pressure value of sampling resistor is greater than bus reference signal, first, which compares mould group, exports pick-off signal to switching tube.According to the technical solution of the present invention, the impact for reducing over-current signal switch tube improves protecting effect when drive control circuit exception.

Description

Drive control circuit and household appliance

Technical field

The present invention relates to drive control fields, in particular to a kind of drive control circuit and a kind of household appliance.

Background technique

Convertible frequency air-conditioner market at present generallys use rectifier, inductor, PFC (Power to promote load running efficiency Factor Correction, PFC) mould group, the drive control of electrolytic capacitor and inverter composition motor (load) Circuit.

In the related technology, in order to reduce the power consumption of BOOST type PFC and the power consumption of rectifier, using totem pole type PFC mould group BOOST type PFC and rectifier are substituted, still, in order to further improve the efficiency of circuit, totem pole type PFC is usually set At least one half-bridge circuit in mould group keeps high-frequency work.

Specifically, as shown in Figure 1, using inductor L, totem pole type PFC (Power Factor Correction, power Factor correcting) mould group, the drive control circuit of electrolytic capacitor E and inverter composition motor (load), above-mentioned drive control circuit At least there is following technological deficiency in the process of running:

(1) since a large amount of switching tubes (first switch tube Q is usually arranged in totem pole type PFC mould group₁, second switch Q₂、 Third switching tube Q₃With the 4th switching tube Q₄), and switching tube is worked with high-frequency mode, this this may result in drive control circuit Generate a large amount of higher hamonic wave.

(2) based on Miller effect it is found that the intrinsic parasitic capacitance of switching tube can generate a large amount of peak voltages, peak current and Power consumption, this can seriously affect totem pole type PFC mould group, the reliability of drive control circuit and household appliance.

In addition, any discussion of the whole instruction to background technique, not representing the background technique must be fields The prior art that technical staff is known, not representing in the whole instruction to any discussion of the prior art think that this is existing Technology must be widely known or certain common knowledge for constituting this field.

Summary of the invention

The present invention is directed to solve at least one of the technical problems existing in the prior art or related technologies.

For this purpose, an object of the present invention is to provide a kind of drive control circuits.

Yet another object of the invention is that proposing a kind of household appliance.

In the technical solution of the first aspect of the present invention, a kind of drive control circuit is proposed, comprising: half-bridge circuit, In bus circuit, the half-bridge circuit is configured as carrying out conversion process to power supply signal, described for the half-bridge circuit access Half-bridge circuit specifically includes: switching tube, and the switching tube is configured with control terminal；Sampling resistor is series at the bus In low-voltage bus bar in circuit, first compares mould group, and the described first first input end for comparing mould group is configured as access bus Reference signal, and the described first first input end for comparing mould group is connected to the first end of the sampling resistor, first ratio The second input terminal compared with mould group is configured as accessing the second end of the sampling resistor, wherein described first compares the defeated of mould group Outlet is connected to the control terminal of the switching tube, if the partial pressure value of the sampling resistor is greater than the bus reference signal, institute It states first and compares mould group to switching tube output pick-off signal.

In the technical scheme, for being equipped with the half-bridge circuit of at least two switching tubes, due to the control of switching tube There are parasitic capacitance between end and output end, parasitic capacitance can cause under the amplification of switching tube between two switching tubes Voltage disturbance, for example, second switch (being denoted as lower switch pipe) begin to turn on moment, and the parasitic capacitance of lower switch pipe generates one Peak voltage, this peak voltage impact first switch tube in the form of peak current, it is possible to first switch tube be caused (to be denoted as Upper switch pipe) it is breakdown, and then lead to half-bridge circuit failure.

Therefore, mould group is compared by setting first, and compares the both ends that mould group is connected across sampling resistor for first, if half-bridge Circuit is straight-through, then the partial pressure value of sampling resistor is greater than bus reference signal, and first, which compares mould group output comparison result, as ends Signal needs not move through driver and carrys out the cut-off of trigger switch pipe, can further reduce a possibility that half-bridge circuit is straight-through.

In addition, drive control circuit according to the above embodiment of the present invention, can also have the following additional technical features:

In any of the above-described technical solution, optionally, further includes: Hall sensor, the Hall sensor are configured as The electric signal for flowing through the half-bridge circuit is sampled, to obtain corresponding sampled signal；Second compares mould group, and described second The first input end for comparing mould group is configured as access reference signal, and the described second the second input terminal for comparing mould group is configured as Access the sampled signal, wherein the described second output end for comparing mould group is connected to the control terminal of the switching tube, if described The absolute value of sampled signal is greater than the reference signal, then described second compares mould group to switching tube output pick-off signal.

In the technical scheme, compare mould group by the way that Hall sensor and second is arranged in half-bridge circuit, to switch Pipe carries out overcurrent protection and overvoltage protection, can not only reduce the impact caused by half-bridge circuit of parasitic capacitance and power supply signal, And can reduce the power consumption of half-bridge circuit, in addition, also reducing driving due to not needing that isolation circuit is arranged for half-bridge circuit The cost of control circuit, and then improve the reliability and stability of drive control circuit.

Wherein, the second output end for comparing mould group is connected to the control terminal of the switching tube, if the sampled signal is exhausted The reference signal is greater than to value, then described second compares mould group to switching tube output pick-off signal, especially in overcurrent When protection or overvoltage protection, needs not move through driver and carry out the cut-off of trigger switch pipe, can further reduce switching tube and be burnt A possibility that ruining or puncturing.

In addition, being sampled by the way that Hall sensor is arranged to the electric signal for flowing through the half-bridge circuit, and sampling is tied Fruit is transferred to driver, and is adjusted according to testing result to switching frequency, for example, is detecting the electric current in power supply signal When carrying more spiking, in order to avoid spiking amplifies and is superimposed by half-bridge circuit, switching frequency can be reduced Reduce electromagnetic interference signal and spiking.

Optionally, the sample frequency range of Hall sensor is 1KHz~1000MHz, and sampled signal is also used for electric current loop Closure control.

In any of the above-described technical solution, optionally, the conducting voltage of switching tube is greater than zero, and described second compares mould group also It include: first comparator, the positive input terminal of the first comparator accesses the first reference signal, and bearing for the first comparator is defeated Enter to terminate into the sampled signal, the output end of the first comparator is connected to the control terminal of the switching tube；And/or the Two comparators, the negative input end of second comparator access the second reference signal, the positive input termination of second comparator Enter the sampled signal, the output end of second comparator is connected to the control terminal of the switching tube, wherein the benchmark letter Number be first reference signal or second reference signal.

In the technical scheme, the conducting voltage of switching tube is greater than zero, i.e. switching tube is N-type MOS field Effect transistor or NPN type triode, the driving signal of control terminal (grid or base stage) are connected when being high level.

Further, the size that first comparator is used to compare between the sampled signal of positive axis and the first reference signal is closed System, according to above-mentioned connection type it is found that first comparator exports low level if positive sampled signal is greater than the first reference signal Signal, similarly, the second comparator are used for the size relation between the sampled signal and the second reference signal of more negative semiaxis, according to For above-mentioned connection type it is found that if negative sampled signal is less than the second reference signal, the second comparator exports low level signal, low Level signal is transmitted to the control terminal of switching tube (N-type Metal Oxide Semiconductor Field Effect Transistor or NPN type triode), i.e., Switching tube cut-off is directly controlled as pick-off signal.

To sum up, as long as the amplitude of sampled signal is greater than reference signal, second to compare mould group i.e. defeated to the control terminal of switching tube Pick-off signal out is improved the reliability of overcurrent protection (or overvoltage protection), is shortened overcurrent protection with direct on-off switching tube The response time of (or overvoltage protection).

In any of the above-described technical solution, optionally, further includes: one-way conduction element, the of the one-way conduction element One end is connected to the control terminal of the switching tube, and the second end of the one-way conduction element is connected to described first and compares mould group Output end, and/or, the second end of the one-way conduction element is connected to the described second output end for comparing mould group, wherein described One-way conduction element is configured as the pick-off signal being one-way transmitted to the control terminal of the switching tube.

In the technical scheme, the control for being connected to the switching tube by the way that the first end of the one-way conduction element is arranged End, only when relatively mould group exports pick-off signal, one way conducting device conducting namely direct on-off switching tube, and do not exporting When pick-off signal, the control terminal of switching tube receives the control signal of driver, and according to control signal conduction or cut-off.

Wherein, the second end of one-way conduction element can be connected to the output end and second that first compares mould group simultaneously Comparing the output end of mould group, any relatively mould group exports pick-off signal, can drag down control terminal by one-way conduction element, with Turn off the switching tube.

In any of the above-described technical solution, optionally, further includes: PFC mould group, the PFC Mould group includes two half-bridge circuits in parallel, is denoted as the first half-bridge circuit and the second half-bridge circuit respectively；Driver, it is described Driver is connected to the output end of the Hall sensor, if the driver detects that the power supply signal is greater than bus electricity Pressure, and the sampled signal be greater than or equal to preset voltage threshold, and the input current of second half-bridge circuit be greater than or Equal to preset current threshold, then the driver exports pulse drive signal to first half-bridge circuit, wherein the arteries and veins It rushes driving signal and is configured as controlling two switching tube alternate conductions in first half-bridge circuit.

In the technical scheme, the size of current in power supply signal is acquired by Hall sensor, and by comparing determining Drive power supply signal be greater than busbar voltage, and sampled signal be greater than or equal to voltage threshold when and the second half-bridge circuit it is defeated Enter electric current more than or equal to preset current threshold, the first half-bridge circuit of control is started to work, namely is come with pulse drive signal The work of the first half-bridge circuit is controlled, usual first half-bridge circuit is worked with high frequency mode, and switching frequency is greater than 1KHz, to reduce electricity The impact of road abnormality switch tube.

Wherein, PFC mould group includes two half-bridge circuits in parallel, and is equipped with switching tube in four bridge arms, Constitute totem pole type PFC (Power Factor Correction, PFC) mould group, optionally, half-bridge circuit In upper switch pipe be NPN type triode, lower switch pipe is PNP type triode, and upper switch pipe and lower switch pipe are transmitting altogether Pole connection, emitter is also an output end of above-mentioned totem pole type PFC mould group.

Optionally, the value range of voltage threshold is 0~200V, 0~10A of threshold value value of current threshold.

Alternatively it is also possible to set MOSFET (Metal-Oxide- for the switching tube in totem pole type PFC mould group Semiconductor Field Effect Transistor, Metal Oxide Semiconductor Field Effect Transistor), switching tube It can be S_iC-type switching tube or G_aN type switch tube, therefore, the switching frequency of switching tube can be promoted further, although can Load running efficiency is further promoted, still, electromagnetic interference signal is stronger, this just needs that filter module is added to reduce electromagnetism Interference signal.

Optionally, it is integrated between the source electrode (emitter) of the switching tube of above-mentioned totem pole type PFC and drain electrode (collector) Reversed freewheeling diode.

In any of the above-described technical solution, optionally, first half-bridge circuit includes first switch tube and second switch Pipe, second half-bridge circuit include third switching tube and the 4th switching tube, the first switch tube and the second switch Between common end access the first line of the power supply signal, the public affairs between the third switching tube and the 4th switching tube It is terminated altogether into the common end between the second route of the power supply signal and the first switch tube and the 4th switching tube The high voltage bus in the bus circuit is accessed, institute is accessed in the common end between the second switch and the third switching tube State low-voltage bus bar, wherein when the power supply signal is positive half-wave signal, the conducting of third switching tube described in the driver control, Meanwhile the 4th switching tube described in the driver control end, the power supply signal be negative half-wave signa when, the driver control The third switching tube cut-off is made, meanwhile, the conducting of the 4th switching tube described in the driver control.

In any of the above-described technical solution, optionally, the switching tube is Metal Oxide Semiconductor Field Effect Transistor Or insulated gate bipolar transistor, wherein the grid of the Metal Oxide Semiconductor Field Effect Transistor is connected to controller Instruction output end, access reversed two pole of afterflow between the source electrode and drain electrode of the Metal Oxide Semiconductor Field Effect Transistor Pipe, the base stage of the insulated gate bipolar transistor are connected to the instruction output end of controller, the insulated gate bipolar crystal Reversed freewheeling diode is accessed between the emitter and collector of pipe.

Wherein, Metal Oxide Semiconductor Field Effect Transistor can imitate for depletion mode fet or enhanced field Transistor is answered, also can choose S_iC transistor or G_aN transistor.

In any of the above-described technical solution, optionally, further includes: electrolytic capacitor is set to the PFC mould group Output end, the electrolytic capacitor is configured as receiving the pulsating direct current signal and is converted to direct current signal；Inverter, connection To the output end of the electrolytic capacitor, the inverter is configured as controlling the direct current signal to load supplying.

In the technical scheme, electrolytic capacitor is arranged by the output end in half-bridge circuit, on the one hand, electrolytic capacitor can The electricity of load running is provided, on the other hand, electrolytic capacitor can also absorb the surging signal for including in drive control circuit, can The electromagnetic interference signal and noise for flowing to inverter are further reduced, the reliability for promoting load running is conducive to.

Wherein, if inverter includes two half-bridge circuits in parallel, single-phase load can be driven to run, if inverter packet Three half-bridge circuits in parallel are included, then threephase load can be driven to run.

In any of the above-described technical solution, optionally, the capacitance value range of the electrolytic capacitor be 10uF~ 20000uF。

In the technical solution of the second aspect of the present invention, a kind of household appliance is proposed, comprising: load；Such as the present invention Any one of first aspect technical solution described in drive control circuit, the dynamic control circuit is configured control for telecommunications Number to load supplying.

In the technical scheme, household appliance includes drive control circuit as described in the above technical scheme, therefore, should Household appliance includes whole beneficial effects of drive control circuit as described in the above technical scheme, is repeated no more again.

In the above-mentioned technical solutions, optionally, the household appliance include air conditioner, refrigerator, fan, smoke exhaust ventilator, At least one of dust catcher and host computer.

Additional aspect and advantage of the invention will become obviously in following description section, or practice through the invention Recognize.

Detailed description of the invention

Above-mentioned and/or additional aspect of the invention and advantage will become from the description of the embodiment in conjunction with the following figures Obviously and it is readily appreciated that, in which:

Fig. 1 shows the schematic diagram of the drive control circuit of one embodiment in the prior art；

Fig. 2 shows the timing diagrams of drive control circuit according to an embodiment of the invention；

Fig. 3 shows the schematic diagram of drive control circuit according to an embodiment of the invention；

Fig. 4 shows the schematic diagram of drive control circuit according to another embodiment of the invention；

Fig. 5 shows the schematic diagram of drive control circuit according to another embodiment of the invention；

Fig. 6 shows the schematic diagram of drive control circuit according to another embodiment of the invention；

Fig. 7 shows the schematic diagram of drive control circuit according to another embodiment of the invention.

Specific embodiment

To better understand the objects, features and advantages of the present invention, with reference to the accompanying drawing and specific real Applying mode, the present invention is further described in detail.It should be noted that in the absence of conflict, the implementation of the application Feature in example and embodiment can be combined with each other.

In the following description, numerous specific details are set forth in order to facilitate a full understanding of the present invention, still, the present invention may be used also To be implemented using other than the one described here other modes, therefore, protection scope of the present invention is not by described below Specific embodiment limitation.

It is carried out below with reference to drive control circuit and household appliance of the Fig. 1 to Fig. 7 to embodiment according to the present invention specific Explanation.

As shown in Figure 1, generalling use inductor L, totem pole type PFC after AC signal AC input to drive control circuit (Power Factor Correction, PFC) mould group, electrolytic capacitor E and inverter constitute motor (load) Drive control circuit, since a large amount of switching tubes (first switch tube Q is usually arranged in totem pole type PFC mould group₁, second switch Q₂, third switching tube Q₃With the 4th switching tube Q₄), in addition, Hall sensor S is arranged in the charge circuit of inductor L, it is based on Hall sensor S detects electric current.

As shown in Figure 1, first switch tube Q₁Source electrode and drain electrode between be equipped with the first reversed sustained diode₁, second opens Close pipe Q₂Source electrode and drain electrode between be equipped with the second reversed sustained diode₂, third switching tube Q₃Source electrode and drain electrode between set There is the reversed sustained diode of third₃, the 4th switching tube Q₄Source electrode and drain electrode between be equipped with the 4th reversed sustained diode₄。

As shown in Fig. 2, totem pole type PFC (Power Factor Correction, PFC) mould group is usually pressed It works according to following mode:

(1) in T₀~T₃In period, it is denoted as alternating voltage U_SPositive half cycle waveform, controller is to first switch tube Q₁With Two switching tube Q₂Export pulse drive signal, first switch tube Q₁Duty ratio be variable numerical value (by it is small increase or by becoming greatly It is small) or preset definite value, first switch tube Q₁Turn-on time and second switch Q₂Turn-on time it is complementary, third switching tube Q₃Conducting, and the 4th switching tube Q₄Cut-off.

(2) in T₃~T₆In period, it is denoted as alternating voltage U_SNegative half period waveform, controller is to first switch tube Q₁With Two switching tube Q₂Export pulse drive signal, first switch tube Q₁Duty ratio be variable numerical value (by it is small increase or by becoming greatly It is small) or preset definite value, first switch tube Q₁Turn-on time and second switch Q₂Turn-on time it is complementary, third switching tube Q₃Cut-off, and the 4th switching tube Q₄Conducting.

As shown in figure 3, in totem pole type PFC (Power Factor Correction, PFC) mould group, If switching tube is N-type MOSFET, parasitic capacitance C_dgThe peak current I of generation_dgDirection is flowed to by grid and is drained, second switch Pipe Q₂Peak current will lead to first switch tube Q₁Grid generate peak voltage, this peak voltage may puncture first and open Close pipe Q₁。

Wherein, controller is connected to driver, and by driver driving switch pipe on or off, for example, first is opened Close pipe Q₁Grid and driver between access first resistor R₁(being mainly used for current limliting and partial pressure), first switch tube Q₁Grid Second resistance R is accessed between source electrode₂(being mainly used for driving conducting), second switch Q₂Grid and driver between access 3rd resistor R₃(being mainly used for current limliting and partial pressure), second switch Q₂Grid and source electrode between access the 4th resistance R₄It is (main It is connected for driving).

As shown in Figure 4, Figure 5, Figure 6 and Figure 7, drive control circuit according to an embodiment of the invention, comprising: half-bridge Circuit 100, the half-bridge circuit 100 access in bus circuit, the half-bridge circuit 100 be configured as to AC signal AC into Row conversion process, the half-bridge circuit 100 specifically include: switching tube, the switching tube are configured with control terminal；Sampling electricity Hinder R₀, it is series in the low-voltage bus bar in the bus circuit, first compares mould group C₀, described first compares mould group C₀First Input terminal is configured as access bus reference signal B₀, and described first compares mould group C₀First input end be connected to described adopt Sample resistance R₀First end, described first compares mould group C₀The second input terminal be configured as accessing the sampling resistor R₀? Two ends, wherein described first compares mould group C₀Output end be connected to the control terminal of the switching tube, if the sampling resistor R₀ Partial pressure value be greater than the bus reference signal B₀, then described first compares mould group C₀Pick-off signal is exported to the switching tube.

In the technical scheme, for being equipped with the half-bridge circuit 100 of at least two switching tubes, due to the control of switching tube There are parasitic capacitance C between end processed and output end_dg, parasitic capacitance C_dgIt can cause two switches under the amplification of switching tube Voltage disturbance between pipe, for example, second switch (being denoted as lower switch pipe) begin to turn on moment, the parasitic capacitance of lower switch pipe C_dgA peak voltage is generated, this peak voltage impacts first switch tube in the form of peak current, it is possible to lead to first Switching tube (being denoted as upper switch pipe) is breakdown, and then leads to 100 failure of half-bridge circuit.

Therefore, mould group C is compared by setting first₀, and compare mould group C for first₀It is connected across sampling resistor R₀Both ends, If half-bridge circuit 100 is straight-through, sampling resistor R₀Partial pressure value be greater than bus reference signal B₀, first compares mould group C₀Output ratio Relatively result is pick-off signal, needs not move through driver and carrys out the cut-off of trigger switch pipe, can further reduce half-bridge circuit 100 it is straight-through a possibility that.

In any of the above-described technical solution, optionally, further includes: Hall sensor S, the Hall sensor S are configured To be sampled to the electric signal for flowing through the half-bridge circuit 100, to obtain corresponding sampled signal；Second compares mould group, institute It states the first input end that second compares mould group and is configured as access reference signal, described second compares the second input terminal quilt of mould group It being configured to access the sampled signal, wherein the described second output end for comparing mould group is connected to the control terminal of the switching tube, If the absolute value of the sampled signal is greater than the reference signal, described second, which compares mould group, exports cut-off to the switching tube Signal.

In the technical scheme, compare mould group by the way that Hall sensor S and second is arranged in half-bridge circuit 100, with right Switching tube carries out overcurrent protection and overvoltage protection, can not only reduce parasitic capacitance C_dgHalf-bridge circuit 100 is made with power supply signal At impact, and can reduce the power consumption of half-bridge circuit 100, in addition, due to not needing that isolation electricity is arranged for half-bridge circuit 100 Road also reduces the cost of drive control circuit, and then improves the reliability and stability of drive control circuit.

In addition, being sampled by the way that Hall sensor S is arranged to the electric signal for flowing through the half-bridge circuit 100, and will adopt Sample result is transferred to driver, and is adjusted according to testing result to switching frequency, for example, in detecting power supply signal When electric current carries more spiking, in order to avoid spiking amplifies and is superimposed by half-bridge circuit 100, switch can be reduced Frequency reduces electromagnetic interference signal and spiking.

Optionally, the sample frequency range of Hall sensor S is 1KHz~1000MHz, and sampled signal is also used for electric current loop Closure control.

In any of the above-described technical solution, optionally, the conducting voltage of switching tube is greater than zero, and described second compares mould group also It include: first comparator C₁, the first comparator C₁Positive input terminal access the first reference signal B₁, the first comparator C₁Negative input end access the sampled signal, the first comparator C₁Output end be connected to the control terminal of the switching tube； And/or the second comparator C₂, the second comparator C₂Negative input end access the second reference signal B₂, second comparator C₂Positive input terminal access the sampled signal, the second comparator C₂Output end be connected to the control terminal of the switching tube, Wherein, the reference signal is the first reference signal B₁Or the second reference signal B₂。

Further, first comparator C₁For comparing the sampled signal and the first reference signal B of positive axis₁Between it is big Small relationship, according to above-mentioned connection type it is found that if positive sampled signal is greater than the first reference signal B₁, then first comparator C₁It is defeated Low level signal out, similarly, the second comparator C₂Sampled signal and the second reference signal B for more negative semiaxis₂Between it is big Small relationship, according to above-mentioned connection type it is found that if negative sampled signal is less than the second reference signal B₂, then the second comparator C₂It is defeated Low level signal out, low level signal are transmitted to switching tube (N-type Metal Oxide Semiconductor Field Effect Transistor or NPN type three Pole pipe) control terminal, i.e., as pick-off signal directly control switching tube cut-off.

In any of the above-described technical solution, optionally, further includes: one-way conduction element D₀, the one-way conduction element D₀'s First end is connected to the control terminal of the switching tube, the one-way conduction element D₀Second end be connected to described first and compare mould Group C₀Output end, and/or, the one-way conduction element D₀Second end be connected to the described second output end for comparing mould group, In, the one-way conduction element D₀It is configured as the pick-off signal being one-way transmitted to the control terminal of the switching tube.

In the technical scheme, by the way that the one-way conduction element D is arranged₀First end be connected to the control of the switching tube End processed, only when relatively mould group exports pick-off signal, one way conducting device conducting namely direct on-off switching tube, and not defeated Out when pick-off signal, the control terminal of switching tube receives the control signal of driver, and according to control signal conduction or cut-off.

Wherein, one-way conduction element D₀Second end can be connected to the first output end for comparing mould group C0 simultaneously, and Second compares the output end of mould group, and any relatively mould group exports pick-off signal, can pass through one-way conduction element D₀Drag down control The electric current I flow direction at end processed, one-way conduction element is as shown in Figure 6 and Figure 7, to turn off the switching tube.

As shown in Figure 4 and Figure 5, first switch tube Q₁With third switching tube Q₃When receiving the Continuity signal that driver is sent, the Two switching tube Q₂With the 4th switching tube Q₄Receive the pick-off signal that driver is sent, and first switch tube Q₁Turn-on time and Second switch Q₂Turn-on time between there are dead times, meanwhile, third switching tube Q₃Turn-on time and the 4th switching tube Q₄Turn-on time between there are dead times.

In any of the above-described technical solution, optionally, further includes: PFC mould group, the PFC Mould group includes two half-bridge circuits 100 in parallel, is denoted as the first half-bridge circuit 100 and the second half-bridge circuit 100 respectively；It drives Dynamic device, the driver is connected to the output end of the Hall sensor S, if the driver detects that the power supply signal is big In busbar voltage, and the sampled signal is greater than or equal to preset voltage threshold, and the input of second half-bridge circuit 100 Electric current is greater than or equal to preset current threshold, then the driver is believed to first half-bridge circuit 100 output pulsed drive Number, wherein the pulse drive signal is configured as controlling two switching tubes in first half-bridge circuit 100 and alternately leads It is logical.

In the technical scheme, the size of current in power supply signal is acquired by Hall sensor S, and by comparing determining Power supply signal is driven to be greater than busbar voltage, and when sampled signal is greater than or equal to voltage threshold and second half-bridge circuit 100 Input current is greater than or equal to preset current threshold, and the first half-bridge circuit 100 of control is started to work, namely is believed with pulsed drive Number control the work of the first half-bridge circuit 100, usual first half-bridge circuit 100 works with high frequency mode, and switching frequency is greater than 1KHz, to reduce the impact of circuit abnormality state switch tube.

In addition, as shown in fig. 6, driver can receive three tunnel overcurrent protection signals, it is specific as follows:

(1) first comparator C₁And/or the second comparator C₂The comparison signal 102 of output；

(2) sampled signal 104 of the power supply signal of Hall sensor S output；

(3) first compare mould group C₀The sampled signal 106 of the bus signal of output.

Wherein, PFC mould group includes two half-bridge circuits 100 in parallel, and is equipped with switch in four bridge arms Pipe, that is, constitute totem pole type PFC (Power Factor Correction, PFC) mould group, optionally, half-bridge Upper switch pipe in circuit 100 is NPN type triode, and lower switch pipe is PNP type triode, and upper switch pipe and lower switch pipe are Common emitter connection, emitter is also an output end of above-mentioned totem pole type PFC mould group.

In any of the above-described technical solution, optionally, first half-bridge circuit includes first switch tube Q₁It is opened with second Close pipe Q₂, second half-bridge circuit includes third switching tube Q₃With the 4th switching tube Q₄, the first switch tube Q₁With described Two switching tube Q₂Between common end access the first line of the power supply signal, the third switching tube Q₃It is opened with the described 4th Close pipe Q₄Between common end access the second route and the first switch tube Q of the power supply signal₁It is opened with the described 4th Close pipe Q₄Between common end access the high voltage bus in the bus circuit, the second switch Q₂It is switched with the third Pipe Q₃Between common end access the low-voltage bus bar, wherein when the power supply signal is positive half-wave signal, the driver control Make the third switching tube Q₃Conducting, meanwhile, the 4th switching tube Q described in the driver control₄Cut-off, the power supply signal are When negative half-wave signa, third switching tube Q described in the driver control₃Cut-off, meanwhile, the 4th opens described in the driver control Close pipe Q₄Conducting.

In any of the above-described technical solution, optionally, further includes: electrolytic capacitor E is set to the PFC mould group Output end, the electrolytic capacitor E is configured as receiving the pulsating direct current signal and is converted to direct current signal；Inverter, even It is connected to the output end of the electrolytic capacitor E, the inverter is configured as controlling the direct current signal to load supplying.

In the technical scheme, electrolytic capacitor E is arranged by the output end in half-bridge circuit 100, on the one hand, electrolytic capacitor E is capable of providing the electricity of load running, and on the other hand, electrolytic capacitor E can also absorb the surge letter for including in drive control circuit Number, the electromagnetic interference signal and noise for flowing to inverter can be further reduced, the reliability for promoting load running is conducive to.

Wherein, if inverter includes two half-bridge circuits 100 in parallel, single-phase load can be driven to run, if inversion Device includes three half-bridge circuits 100 in parallel, then threephase load can be driven to run.

In any of the above-described technical solution, optionally, the capacitance value range of the electrolytic capacitor E be 10uF~ 20000uF。

For the technical problems in the prior art, the invention proposes a kind of drive control circuit and household appliance, Compare mould group by setting first, and compare the both ends that mould group is connected across sampling resistor for first, if half-bridge circuit is straight-through, adopts The partial pressure value of sample resistance be greater than bus reference signal, first compare mould group output comparison result be pick-off signal, do not need through Device of overdriving carrys out the cut-off of trigger switch pipe, can further reduce a possibility that half-bridge circuit is straight-through.

It should be understood by those skilled in the art that, the embodiment of the present invention can provide as method, system or computer program Product.Therefore, complete hardware embodiment, complete software embodiment or reality combining software and hardware aspects can be used in the present invention Apply the form of example.Moreover, it wherein includes the computer of computer usable program code that the present invention, which can be used in one or more, The computer program implemented in usable storage medium (including but not limited to magnetic disk storage, CD-ROM, optical memory etc.) produces The form of product.

The present invention be referring to according to the method for the embodiment of the present invention, the process of equipment (system) and computer program product Figure and/or block diagram describe.It should be understood that every one stream in flowchart and/or the block diagram can be realized by computer program instructions The combination of process and/or box in journey and/or box and flowchart and/or the block diagram.It can provide these computer programs Instruct the controller of general purpose computer, special purpose computer, Embedded Processor or other programmable data processing devices to produce A raw machine, so that being generated by the instruction that computer or the controller of other programmable data processing devices execute for real The device for the function of being specified in present one or more flows of the flowchart and/or one or more blocks of the block diagram.

These computer program instructions, which may also be stored in, is able to guide computer or other programmable data processing devices with spy Determine in the computer-readable memory that mode works, so that it includes referring to that instruction stored in the computer readable memory, which generates, Enable the manufacture of device, the command device realize in one box of one or more flows of the flowchart and/or block diagram or The function of being specified in multiple boxes.

These computer program instructions also can be loaded onto a computer or other programmable data processing device, so that counting Series of operation steps are executed on calculation machine or other programmable devices to generate computer implemented processing, thus in computer or The instruction executed on other programmable devices is provided for realizing in one or more flows of the flowchart and/or block diagram one The step of function of being specified in a box or multiple boxes.

It should be noted that in the claims, any reference symbol between parentheses should not be configured to power The limitation that benefit requires.Word "comprising" does not exclude the presence of component or step not listed in the claims.Before component Word "a" or "an" does not exclude the presence of multiple such components.The present invention can be by means of including several different components It hardware and is realized by means of properly programmed computer.In the unit claims listing several devices, these are filled Several in setting, which can be, to be embodied by the same item of hardware.The use of word first, second, and third is not Indicate any sequence.These words can be construed to title.

Although preferred embodiments of the present invention have been described, it is created once a person skilled in the art knows basic Property concept, then additional changes and modifications may be made to these embodiments.So it includes excellent that the following claims are intended to be interpreted as It selects embodiment and falls into all change and modification of the scope of the invention.

These are only the preferred embodiment of the present invention, is not intended to restrict the invention, for those skilled in the art For member, the invention may be variously modified and varied.All within the spirits and principles of the present invention, it is made it is any modification, Equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims

1. a kind of drive control circuit characterized by comprising

Half-bridge circuit, in bus circuit, the half-bridge circuit is configured as carrying out power supply signal for the half-bridge circuit access Conversion process, the half-bridge circuit specifically include:

Switching tube, the switching tube are configured with control terminal；

Sampling resistor is series in the low-voltage bus bar in the bus circuit,

First compares mould group, and the described first first input end for comparing mould group is configured as access bus reference signal, and described First first input end for comparing mould group is connected to the first end of the sampling resistor, and described first compares the second input of mould group End is configured as accessing the second end of the sampling resistor,

Wherein, the described first output end for comparing mould group is connected to the control terminal of the switching tube, if point of the sampling resistor Pressure value is greater than the bus reference signal, then described first compares mould group to switching tube output pick-off signal.

2. drive control circuit according to claim 1, which is characterized in that further include:

Hall sensor, the Hall sensor are configured as sampling power supply signal, to obtain corresponding sampled signal；

Second compares mould group, and the described second first input end for comparing mould group is configured as access reference signal, second ratio The second input terminal compared with mould group is configured as accessing the sampled signal,

Wherein, the described second output end for comparing mould group is connected to the control terminal of the switching tube, if the sampled signal is exhausted The reference signal is greater than to value, then described second compares mould group to switching tube output pick-off signal.

3. drive control circuit according to claim 2, which is characterized in that the conducting voltage of switching tube is described greater than zero Second compares mould group further include:

The positive input terminal of first comparator, the first comparator accesses the first reference signal, and bearing for the first comparator is defeated Enter to terminate into the sampled signal, the output end of the first comparator is connected to the control terminal of the switching tube；

And/or second comparator, the negative input end of second comparator access the second reference signal, second comparator Positive input terminal access the sampled signal, the output end of second comparator is connected to the control terminal of the switching tube,

Wherein, the reference signal is first reference signal or second reference signal.

4. drive control circuit according to claim 1, which is characterized in that further include:

The first end of one-way conduction element, the one-way conduction element is connected to the control terminal of the switching tube, described unidirectionally to lead The second end of logical element is connected to the described first output end for comparing mould group,

And/or the second end of the one-way conduction element is connected to the described second output end for comparing mould group,

Wherein, the one-way conduction element is configured as the pick-off signal being one-way transmitted to the control terminal of the switching tube.

5. drive control circuit according to claim 2, which is characterized in that

PFC mould group, the PFC mould group include two half-bridge circuits in parallel, are denoted as respectively First half-bridge circuit and the second half-bridge circuit；

Driver, the driver are connected to the output end of the Hall sensor, if the driver detects the power supply Signal is greater than busbar voltage, and the sampled signal is greater than or equal to preset voltage threshold, and second half-bridge circuit Input current is greater than or equal to preset current threshold, then the driver is believed to first half-bridge circuit output pulsed drive Number,

Wherein, the pulse drive signal is configured as controlling two switching tube alternate conductions in first half-bridge circuit.

6. drive control circuit according to claim 5, which is characterized in that further include:

First half-bridge circuit includes first switch tube and second switch, and second half-bridge circuit includes third switching tube With the 4th switching tube, the first of the power supply signal is accessed in the common end between the first switch tube and the second switch The second route of the power supply signal is accessed in route, the common end between the third switching tube and the 4th switching tube,

And the mother of the high pressure in the bus circuit is accessed in the common end between the first switch tube and the 4th switching tube The low-voltage bus bar is accessed in line, the common end between the second switch and the third switching tube,

Wherein, when the power supply signal is positive half-wave signal, the conducting of third switching tube described in the driver control, meanwhile, institute State the cut-off of the 4th switching tube described in driver control, the power supply signal be negative half-wave signa when, described in the driver control The cut-off of third switching tube, meanwhile, the conducting of the 4th switching tube described in the driver control.

7. drive control circuit according to any one of claim 1 to 6, which is characterized in that

The switching tube be Metal Oxide Semiconductor Field Effect Transistor or insulated gate bipolar transistor,

Wherein, the grid of the Metal Oxide Semiconductor Field Effect Transistor is connected to the instruction output end of controller, described Reversed freewheeling diode, the insulated gate bipolar are accessed between the source electrode and drain electrode of Metal Oxide Semiconductor Field Effect Transistor The base stage of transistor npn npn is connected to the instruction output end of controller, the emitter and collector of the insulated gate bipolar transistor Between access reversed freewheeling diode.

8. drive control circuit according to any one of claim 1 to 6, which is characterized in that further include:

Electrolytic capacitor, set on the output end of the PFC mould group, the electrolytic capacitor is configured as receiving the arteries and veins Dynamic direct current signal is simultaneously converted to direct current signal；

Inverter, is connected to the output end of the electrolytic capacitor, and the inverter is configured as controlling the direct current signal to negative Carry power supply.

9. drive control circuit according to claim 8, which is characterized in that

The capacitance value range of the electrolytic capacitor is 10uF~20000uF.

10. drive control circuit according to any one of claim 1 to 6, which is characterized in that further include:

Electric power detection mould group accesses in the second route of the power supply signal, and the electric power detection mould group is configured as detecting AC signal is to the power supply volume of load, and the power supply volume is for being adjusted the turn-on frequency of the switching tube.

11. a kind of household appliance characterized by comprising

Load；

Drive control circuit as described in any one of claims 1 to 10, the dynamic control circuit are configured control for telecommunications Number to load supplying.

12. household appliance according to claim 11, which is characterized in that

The household appliance includes at least one of air conditioner, refrigerator, fan, smoke exhaust ventilator, dust catcher and host computer.