CN101465598A - AC/DC converter - Google Patents

Abstract

The invention discloses an AC/DC converter which carries out rectification and filtration to input alternating voltage by ensuing that the needed working voltage of a load is lower than presetting value; the alternating voltage power factor after the rectification and filtration are corrected forms power factor correction PFC busbar voltage, and the PFC busbar voltage is adjusted at the same time; in addition, in an AC/DC converting circuit, duty ratio of a complementary metal oxide semiconductor MOS switching tube which carries out DC/DC conversion to a PFC bus is adjusted, and the rectification and filtration are carried out to the voltage output by the DC/DC converting circuit, and the voltage is output to the load. By applying the AC/DC converter and properly reducing the PFC busbar voltage output by a PFC circuit, the MOS switching tube in the DC/DC converting circuit can work in a duty ratio with higher working efficiency when the working voltage of the load is lower, thus ensuring the direct current working voltage needed by the load, improving the efficiency when the AC/DC converter outputs low voltage and reducing loss.

Description

A kind of AC/DC converter

Technical field

The present invention relates to ac/dc (AC/DC, Alternating Current/Direct Current) voltage transformation technology, particularly a kind of AC/DC converter.

Background technology

The AC/DC voltage conversion circuit is to be the circuit of direct voltage with AC voltage conversion, is widely used in fields such as D.C. regulated power supply, DC motor, industrial welding and communication.By alternating voltage being carried out filter rectification, voltage stabilizing, voltage transformation, output filter rectification and voltage stabilizing, the output galvanic current is pressed, satisfy produce, in the life to the demand of various voltage of direct-flow voltage regulation.

Fig. 1 is the structural representation of existing AC/DC converter, referring to Fig. 1, this AC/DC converter comprises: input voltage electromagnetic interference (EMI, Electro Magnetic Interference) filter circuit, power factor correction (PFC, Power Factor Correct) circuit, DC/DC translation circuit and output voltage filter circuit, wherein, input voltage EMI filter circuit, pfc circuit and DC/DC translation circuit are the input voltage primary-side circuitry, the output voltage filter circuit is a secondary-side circuitry

Input voltage EMI filter circuit is used for the alternating voltage of input is carried out rectifying and wave-filtering, for example, carries out rectifying and wave-filterings such as full-bridge, π type, exports pfc circuit to behind harmonic wave that comprises with the filtering alternating voltage and the harmonic wave by the electrical network transmission;

Pfc circuit, be used for voltage to input voltage EMI filter circuit output and carry out power factor correction and voltage stabilizing to preset value, in order to improve the power factor of converter, satisfy of the specification requirement of international relevant technologies standard about harmonic wave, reduce harmonic pollution, thereby also improve the operating efficiency of converter electrical network;

The DC/DC translation circuit is used for the voltage of voltage regulation of pfc circuit output is carried out dc voltage conversion, is the needed voltage of direct-flow voltage regulation of respective load with the pfc circuit voltage stabilizing to the voltage transformation of preset value;

The output voltage filter circuit is used for the voltage of DC/DC translation circuit output is carried out filtering, with the stability of the needed voltage of direct-flow voltage regulation of load of further raising output.

Existing P FC circuit, because PFC technology rapid development and applying, its circuit topological structure form is varied, all has good input and output characteristic, below is that example is specifically described with a kind of circuit more common in the practical application.

Fig. 2 is existing a kind of common pfc circuit structural representation, and referring to Fig. 2, this pfc circuit comprises: diode D1～D7, inductance L 1, resistance R 0, capacitor C 1 and switching tube Q, wherein,

Diode D1～D4 is used to form rectification circuit, to the alternating voltage AC of input _InCarry out rectification, D5～D7, inductance L 1, resistance R 0, capacitor C 1 and switching tube Q1 are used for the AC after the rectification _InCarry out power factor and regulate, to improve the direct voltage DC of output _OutPower factor, like this, can improve the efficient of converter, simultaneously, to the AC after the rectification _InCarry out voltage stabilizing and filtering harmonic wave, make the direct voltage DC of output _OutSatisfy the relevant technologies standard.In describing below, with the direct voltage DC of pfc circuit output _OutBe called the PFC busbar voltage.

The operation principle of pfc circuit shown in Figure 2 is: alternating current is after the rectifier bridge rectification, press through an energy storage inductor and isolating diode output galvanic current, the tie point of energy storage inductor and isolating diode is by a complementary metal oxide semiconductors (CMOS) (MOS, Metal Oxide Semiconductor) switching tube ground connection, control voltage on the MOS switching tube grid is constant voltage, like this, make the switching that metal-oxide-semiconductor is constantly opened and turn-offed according to preset time point, thereby regulate electric current by energy storage inductor, make electric capacity keep the stable of output dc voltage by discharging and recharging, also eliminated simultaneously because the harmonic current that rectifying and wave-filtering produces compensates, improve power factor.

The output of pfc circuit is connected with the DC/DC translation circuit, the DC/DC translation circuit need be according to various loads to the requirement of direct-current working volts to export corresponding direct voltage, thereby, the DC/DC translation circuit need be at various load, some parameters to circuit are adjusted, to guarantee to stablize and meet the output voltage of demand of technical standard.

Existing DC/DC translation circuit comprises: phase-shifting full-bridge zero voltage switch converter, pulse-width modulation (PWM, Pulse Width Modulation) control full-bridge converter, symmetrical half bridge converter, half-bridge three-level DC/DC converter, cascade full-bridge three-level DC/DC converter, full-bridge three-level DC/DC converter, phase-shifted full-bridge converter and various buck/boost (BUCK/BOOST) quasi-converter etc.Be example below with the phase-shifted full-bridge converter, describe the DC/DC DC converting operation principle of DC/DC translation circuit in detail.

Fig. 3 is existing phase-shifted full-bridge converter electrical block diagram, and referring to Fig. 3, this phase-shifted full-bridge converter circuit comprises: primary side direct voltage regulating circuit and primary side dc voltage output circuit, wherein,

Primary side direct voltage regulating circuit, comprise leading-bridge, lagging leg and primary coil, be used for regulating the time of leading-bridge, lagging leg break-make according to the requirement of loaded work piece voltage, thereby keep direct voltage stable by the primary coil conversion and export corresponding loaded work piece voltage

Leading-bridge, first end respectively with the direct voltage DC of pfc circuit output _Out(the PFC busbar voltage is in Fig. 3, with U _InExpression) the positive pole and first end of lagging leg link to each other, second end respectively with U _InThe negative pole and second end of lagging leg link to each other, the 3rd end links to each other with primary coil one end, the 4th termination receipts leading-bridge control signal,

Lagging leg, the 3rd end links to each other with the primary coil other end, and the 4th termination is received the lagging leg control signal,

The predefined phase place of leading-bridge control signal lead-lag brachium pontis control signal, this predefined phase place and U _In, the required direct voltage size of former secondary coil turn ratio and load is relevant, at U _In, former secondary coil turn ratio and load direct voltage determine after, this phase place can be calculated by the Automatic Program that sets in advance and obtain, and regulates the method for control signal phase place, specifically can not repeat them here referring to relevant technical literature.

Leading-bridge comprises: MOS switching tube Q11 and Q21,

Q11 comprises first utmost point, second utmost point and the control utmost point, between first utmost point and second utmost point, is parallel with diode D11 and capacitor C 11,

Q21 comprises first utmost point, second utmost point and the control utmost point, between first utmost point and second utmost point, is parallel with diode D21 and capacitor C 21,

First utmost point of Q11 respectively with U _InThe positive pole and first end of lagging leg link to each other, second utmost point links to each other with first utmost point and primary coil one end of Q21 respectively, control utmost point reception Q11 control signal,

Second utmost point of Q21 respectively with U _InThe negative pole and second end of lagging leg link to each other, the control utmost point receives the Q21 control signal,

Q11 control signal and the complementation of Q21 control signal.

Lagging leg comprises: MOS switching tube Q31 and Q41,

Q31 comprises first utmost point, second utmost point and the control utmost point, between first utmost point and second utmost point, is parallel with diode D31 and capacitor C 31,

Q41 comprises first utmost point, second utmost point and the control utmost point, between first utmost point and second utmost point, is parallel with diode D41 and capacitor C 41,

First utmost point of Q31 respectively with U _InPositive pole and Q11 first extremely continuous, second utmost point links to each other with first utmost point and the primary coil other end of Q41 respectively, the control utmost point receives the Q31 control signal,

Second utmost point of Q41 respectively with U _InNegative pole and Q21 second extremely continuous, the control utmost point receives the Q41 control signal,

Q31 control signal and the complementation of Q41 control signal.

Q11, Q21, Q31 and Q41 control signal are exported by PWM controller (not shown), the PWM controller is according to the direct voltage requirement of output loading, export control signal by the control loop (not shown) according to predefined strategy, control is added in the voltage that the last control of MOS switching tube Q11～Q41 is extremely gone up, thereby the make-and-break time (duty ratio) of control Q11～Q41, adjust the output to the voltage at primary coil N1 two ends, make the voltage that exports load to be stabilized on the required operating voltage of this load.

The primary side dc voltage output circuit is used for the direct voltage output with the primary coil conversion, comprises secondary coil N21 and N22, diode Dr1 and Dr2, diode Dr1 and Dr2 constitute centre tapped rectification circuit, are connected to output filter capacitor C0 by output inductor L0, wherein

N21 and N22 series connection, N21 one termination Dr1, as a utmost point of output dc voltage, the other end links to each other with N22 one end, as another utmost point of output dc voltage;

Another termination of N22 Dr2, as a utmost point of output dc voltage, the output of Dr2 links to each other with the output of Dr1.

In circuit structure shown in Figure 3, also drawn output filter circuit, comprised output inductor L0 and output filter capacitor C0, the output of diode Dr1 and Dr2 is connected to C0 one end by L0, C0 is in parallel with load, and the other end links to each other with the junction of secondary coil N21 and N22.

Phase-shifted full-bridge converter operation principle shown in Figure 3 is as follows:

Q11～Q41 control signal is controlled the turn-on and turn-off time of Q11～Q41 respectively, and when Q11, Q41 conducting, Q11, N1 and Q41 form the loop; When Q21, Q31 conducting, Q31, N1 and Q21 form the loop, and when the conducting of MOS switching tube, the PFC busbar voltage of input is converted into secondary coil by primary coil N1, and behind the output filter circuit rectifying and wave-filtering the required burning voltage of output loading, and make inductive energy storage; When the MOS switching tube turn-offed, the energy that is stored in the inductance discharged to load by output diode, thereby made load obtain continuous and stable output voltage, and the turn-on and turn-off time of MOS switching tube is by the control signal control of PWM controller output.When load changes, for example, when needing that this phase-shifted full-bridge converter is applied to the lower load of another operating voltage, the phase shifting angle of the control signal by regulating the output of PWM controller, promptly make the duty ratio of control signal reduce, the ON time of control Q11～Q41 reduces, thereby makes the voltage that exports primary coil to reduce, and the output voltage of regulating secondary is to the required operating voltage of this load.

In the phase-shifted full-bridge converter, in the process of MOS switching tube break-make, need certain energy, in order to reduce the power loss of converter, the general zero voltage switch that adopts, be that the MOS switching tube is operated in the no-voltage point, to reduce the power loss of MOS switching tube break-make, the required energy of MOS switching tube break-make is mainly the energy storage of the leakage inductance and the leakage inductance that secondary is converted former limit on the former limit of transformer, at the leading-bridge duration of work, output inductor is converted former limit and is connected with the leakage inductance on former limit, because general output inductor is bigger, thereby has enough energy storage to realize the zero voltage switch of leading-bridge; But at the lagging leg duration of work, converter is in during the rectifier diode change of current, the conducting simultaneously of two rectifier diodes with transformer secondary clamper in zero potential, output inductor just can not be converted former limit, like this, has only the energy storage of former limit equivalent inductance to the energy of lagging leg two ends capacitor charge and discharge, because this inductance is a transformer leakage inductance, leakage inductance is very little, thereby, there are not enough energy to realize the zero voltage switch of lagging leg.

In order to realize the zero voltage switch of lagging leg, prior art is by energy required when resonant inductance Lr of the former limit series connection of converter improves lagging leg realization zero voltage switch.

By as seen above-mentioned, at the required direct-current working volts of different loads, output dc voltage adjustment and load response are mainly realized by the DC/DC translation circuit, promptly by regulating the phase shifting angle (duty ratio) of MOS switch controlled signal in the DC/DC translation circuit, change the make-and-break time of MOS switching tube, thereby regulate output voltage.If the required direct-current working volts of load are lower, then the duty ratio of MOS switch controlled signal is also with corresponding reduction, because the loss of converter and the operating frequency of efficient and MOS switching tube, duty ratio, the material of magnetic core, the technical parameter of design and former secondary coil technique for coiling etc. are relevant, after converter is determined, the material of magnetic core, the technical parameter of design and former secondary coil technique for coiling have also just been determined, thereby, the operating frequency of MOS switching tube and duty ratio are to influence the loss of converter and the key factor of efficient, when the operating frequency of MOS switching tube is high more, the loss power of MOS switching tube is big more; Duty ratio is more little, causes the primary current effective value to increase, and the corresponding increase of loss, efficient reduce.That is to say, recently regulate output voltage by the duty that changes the DC/DC translation circuit, if duty cycle range is bigger, in duty ratio hour, transducer effciency obviously descends.

Translation circuit for the resonant inductance of having connected on former limit, because the resonant inductance of series connection will make the time of current reversal extend, in the process of current reversal, two secondary rectifier diodes of converter all are in conducting state, and causing secondary voltage is zero, make the duty cycle range of translation circuit dwindle, like this, make the direct voltage of translation circuit output can not satisfy the unequally loaded needs, simultaneously, in duty ratio hour, transducer effciency descends.

Summary of the invention

In view of this, a main purpose of the present invention is to provide a kind of AC/DC converter, in the required direct-current working volts of proof load, improves the AC/DC transducer effciency, reduces the wastage.

For achieving the above object, the invention provides a kind of AC/DC converter, comprise input voltage electromagnetic interference EMI filter circuit, output voltage filter circuit, this AC/DC converter also comprises: power factor correction pfc circuit, DC/DC translation circuit and pulse-width modulation PWM control circuit, wherein

Pfc circuit is used for the voltage of input voltage EMI filter circuit output is carried out power factor correction, output PFC busbar voltage, and the control signal according to pwm control circuit output is adjusted to preset value with the PFC busbar voltage;

The DC/DC translation circuit, be used for control signal according to pwm control circuit output, the duty ratio of complementary metal oxide semiconductors (CMOS) MOS switching tube in the regulating circuit, once more the PFC busbar voltage of pfc circuit output preset value is regulated, and carry out dc voltage conversion, the PFC busbar voltage of the preset value of input is transformed to the needed voltage of direct-flow voltage regulation of respective load;

Pwm control circuit is used for the voltage according to the output of output voltage filter circuit, generates control signal, controls pfc circuit and DC/DC translation circuit respectively the voltage of input is regulated.

Described pfc circuit comprises: first diode～the 7th diode, first inductance, first resistance, first electric capacity and a MOS switching tube, wherein,

First diode～the 4th diode is formed rectification circuit, is used for the alternating voltage of input is carried out rectification;

The 5th diode～the 7th diode, first inductance, first resistance, first electric capacity and a MOS switching tube are used for that the alternating voltage after the rectification is carried out power factor and regulate; Simultaneously, the grid of a MOS switching tube receives the control signal of pwm control circuit output, regulates the duty ratio of self, the alternating voltage after the rectification is adjusted the PFC busbar voltage of output preset value.

Described DC/DC translation circuit comprises: phase-shifted full-bridge converter, PWM control full-bridge converter, symmetrical half bridge converter, half-bridge three-level DC/DC converter, cascade full-bridge three-level DC/DC converter, full-bridge three-level DC/DC converter and buck/boost converter.

Described phase-shifted full-bridge converter comprises: leading-bridge, lagging leg, primary coil and primary side dc voltage output circuit, wherein,

Leading-bridge, first end links to each other with the positive pole of the PFC busbar voltage of described pfc circuit output and first end of lagging leg respectively, second end links to each other with the negative pole of described PFC busbar voltage and second end of lagging leg respectively, the 3rd end links to each other with primary coil one end, and the 4th termination is received the leading-bridge control signal from pwm control circuit;

Lagging leg, the 3rd end links to each other with the primary coil other end, and the 4th termination is received the lagging leg control signal from pwm control circuit;

The predefined phase place of the leading described lagging leg control signal of described leading-bridge control signal;

The primary side dc voltage output circuit is used for exporting the direct voltage of primary coil conversion to the output voltage filter circuit.

Described leading-bridge comprises: the 2nd MOS switching tube and the 3rd MOS switching tube,

Described the 2nd MOS switching tube between first utmost point and second utmost point, be parallel with the 8th diode and second electric capacity, first utmost point links to each other with the positive pole of described PFC busbar voltage and first end of lagging leg respectively, second utmost point links to each other with first utmost point and primary coil one end of described the 3rd MOS switching tube respectively, and the control utmost point receives the 2nd MOS switch controlled signal from pwm control circuit;

Between first utmost point and second utmost point of described the 3rd MOS switching tube, be parallel with the tenth diode and the 3rd electric capacity, second utmost point links to each other with the negative pole of described PFC busbar voltage and second end of lagging leg respectively, and the control utmost point receives the 3rd MOS switch controlled signal from pwm control circuit;

Described the 2nd MOS switch controlled signal and described the 3rd MOS switch controlled signal complementation.

Described lagging leg comprises: the 4th MOS switching tube and the 5th MOS switching tube,

Between first utmost point and second utmost point of described the 4th MOS switching tube, be parallel with the 11 diode and the 4th electric capacity, first utmost point extremely links to each other with anodal and the 2nd MOS switching tube first of described PFC busbar voltage respectively, second utmost point links to each other with first utmost point and the primary coil other end of the 5th MOS switching tube respectively, the control utmost point receives the 4th MOS switch controlled signal from pwm control circuit

Between first utmost point and second utmost point of described the 5th MOS switching tube, be parallel with the 12 diode and the 5th electric capacity, second utmost point extremely links to each other with the negative pole and the 3rd MOS switching tube second of described PFC busbar voltage respectively, and the control utmost point receives the 5th MOS switch controlled signal from pwm control circuit

Described the 4th MOS switch controlled signal and described the 5th MOS switch controlled signal complementation.

Described pwm control circuit comprises PFC control circuit and DC/DC control circuit, and wherein, described PFC control circuit is a special chip, receives the output of output voltage filter circuit, and the FPC circuit is controlled;

Described DC/DC control circuit is the Digital Control circuit, receives the output of output voltage filter circuit, one tunnel output control DC/DC translation circuit, and another road output is as the given signal of PFC control circuit.

Further comprise PFC control circuit and DC/DC control circuit, wherein, described PFC control circuit is a special chip, receives one tunnel output of pwm control circuit, and the FPC circuit is controlled;

Described DC/DC control circuit is the Digital Control circuit, receives another road output of pwm control circuit, control DC/DC translation circuit.

Further comprise resonant inductance, described leading-bridge the 3rd end links to each other with primary coil one end by described resonant inductance

As seen from the above technical solutions, AC/DC converter provided by the invention, by determining that the required operating voltage of load is lower than predefined value, alternating voltage to input carries out rectifying and wave-filtering, alternating voltage power factor behind the correction rectifying and wave-filtering, form power factor correction PFC busbar voltage, regulate the PFC busbar voltage simultaneously, and in the DC/DC translation circuit, the PFC busbar voltage being carried out the duty ratio of the complementary metal oxide semiconductors (CMOS) MOS switching tube of DC/DC conversion regulates, voltage to the output of DC/DC translation circuit carries out rectifying and wave-filtering, exports to load.Make the output dc voltage adjustment realize by pfc circuit and DC/DC translation circuit two-stage, at first suitably reduce the PFC busbar voltage of pfc circuit output, thereby make when loaded work piece voltage is low, MOS switching tube in the DC/DC translation circuit can be operated on the higher duty ratio of efficient, in the required direct-current working volts of proof load, improved the efficient of AC/DC converter when output LOW voltage, reduced loss.

Description of drawings

Fig. 1 is the structural representation of existing AC/DC converter;

Fig. 2 is existing a kind of common pfc circuit structural representation;

Fig. 3 is existing phase-shifted full-bridge converter electrical block diagram;

Fig. 4 controls the method flow schematic diagram of AC/DC conversion for the present invention;

Fig. 5 is an AC/DC transformer configuration schematic diagram of the present invention;

Fig. 6 is another structural representation of AC/DC converter of the present invention;

Fig. 7 is AC/DC converter the 3rd structural representation of the present invention;

Fig. 8 is an AC/DC converter particular circuit configurations schematic diagram of the present invention.

Embodiment

For making the purpose, technical solutions and advantages of the present invention clearer, the present invention is described in further detail below in conjunction with the accompanying drawings and the specific embodiments.

AC/DC converter provided by the invention, by PFC busbar voltage and the method that combines of MOS switching tube duty cycle adjustment to input, when the required direct voltage of load is low, the PFC busbar voltage of input is reduced, thereby the duty ratio of MOS switching tube is suitably improved, like this, both guaranteed the direct-current working volts that load is required, and also improved the AC/DC transducer effciency, reduced loss.

In theory, regulate MOS switching tube make-and-break time by the phase shifting angle (duty ratio) of regulating control signal, when duty ratio reaches theoretic 0.5 the time, the power loss and the efficient of converter reach optimum value, in the practical application, because select to have some errors aspect first-class in the transformer turn ratio that satisfies converter design, actual duty ratio is all below 0.5.In the embodiment of the invention,, improve the duty ratio of MOS switching tube work, thereby improve transducer effciency, reduction transducer loose by the PFC busbar voltage of input is regulated.

Fig. 4 controls the method flow schematic diagram of AC/DC conversion for the present invention, and referring to Fig. 4, this flow process comprises:

Step 401 is carried out rectifying and wave-filtering to the alternating voltage of importing;

In this step, the alternating voltage of input is carried out rectifying and wave-filtering, for example, rectifying and wave-filterings such as full-bridge, π type, the harmonic wave that comprises with the filtering alternating voltage and the harmonic wave by the electrical network transmission.

Step 402, the alternating voltage power factor behind the correction rectifying and wave-filtering forms the PFC busbar voltage, regulates the PFC busbar voltage simultaneously and regulates the duty ratio of the PFC busbar voltage being carried out the MOS switching tube of DC/DC conversion according to the required operating voltage of load;

In this step, alternating voltage behind the rectifying and wave-filtering is carried out PFC to be handled, in order to improve the power factor of converter, satisfy of the specification requirement of international relevant technologies standard about harmonic wave, reduce harmonic pollution to electrical network, thereby also improve transducer effciency, then, the PFC busbar voltage that forms is carried out the two-stage decompression transformation, promptly when the required operating voltage of load is lower than predefined value, at first reduce the PFC busbar voltage, next again in the DC/DC conversion according to the required operating voltage of load, regulate the duty ratio of MOS switching tube, will be adjusted to the operating voltage of load through the voltage of DC/DC conversion output.

In the practical application, reducing the PFC busbar voltage can adopt the duty that changes MOS switching tube in the circuit recently to realize, the PWM controller is according to the loaded work piece voltage of input, if when determining to carry out the two-stage voltage-regulation, for example, if loaded work piece voltage is reduced to below the preset value, show that the duty ratio (this dutyfactor value is little) by MOS switching tube in the independent adjusting DC/DC translation circuit will cause bigger power loss and lower efficient, then according to loaded work piece voltage, determine the duty ratio of MOS switching tube in the two-stage voltage-regulation according to predefined strategy, regulate by two-stage, make the duty ratio of circuit synthesis increase, the too small power consumption that causes of duty ratio increases and the efficient reduction when avoiding carrying out the one-level voltage-regulation.

For instance, for communication power supply, since more and more higher to the requirement of EMC and power factor specification, and the single-phase output voltage range of AC/DC converter is generally 90VDC～264VDC, and the DC/DC converter is used for realizing the requirement of gamut output voltage in full input voltage range.In the present embodiment, according to engineering experience, the PFC busbar voltage can be stabilized in 420VDC, requiring output voltage is low-voltage, for example, and 48VDC, and the power supply module for communication minimum output voltage is under the situation of 42VDC, according to the consideration of the factors such as power curve of input voltage range, output voltage range, transformer turn ratio, translation circuit, can in first order conversion, the PFC busbar voltage be reduced to 380VDC.Like this, having avoided simple dependence to increase the duty ratio that the phase shifting angle between the MOS switch controlled signal causes in the DC/DC converter reduces, make converter primary current effective value increase, thereby cause loss to increase, transducer effciency reduces, edge down by the PFC busbar voltage that will import the DC/DC converter, thereby can reduce the phase shifting angle between the control signal, improve the duty ratio of converter, make the primary current effective value reduce, when output LOW voltage, still can keep higher efficient and lower loss.

In the practical application, the duty ratio that can regulate PFC busbar voltage and MOS switching tube simultaneously by output voltage or output current makes converter MOS switching tube duty ratio improve transducer effciency near being operated in maximum duty cycle as far as possible.Regulate the PFC busbar voltage and comprise the value of feedback of regulating PFC bus reference voltage and regulating the PFC busbar voltage, can regulate the PFC busbar voltage simultaneously by numeral, simulation and digital simulation.About the scope of preferable efficient point that the PFC busbar voltage is regulated, relevant with the actual techniques index request, need repeatedly the test back to determine.For example, if wider range of preferable efficient point, will cause PFC busbar voltage wide ranges, like this, if the PFC busbar voltage is low excessively, may cause input voltage high during to certain value the voltage after the rectifies be higher than the PFC bus voltage value, make that the voltage after the rectifier bridge rectification is directly given the charging of PFC bus capacitor, cause the power factor deterioration of translation circuit.

In the present embodiment, in order further to reduce the loss power of MOS switching tube, can also regulate the operating frequency of MOS switching tube, for example, regulate MOS switching tube operating frequency simultaneously by output voltage or output current, MOS switching tube duty ratio and PFC busbar voltage, make MOS switching tube operating frequency be operated in the most effective frequency range, MOS switching tube operating frequency is stabilized near the transducer effciency peak, widen the scope of transducer effciency peak with this, make converter MOS switching tube duty ratio be operated near the maximum duty cycle as far as possible simultaneously, to improve transducer effciency, reduce transducer loose, optimize the thermal design of converter.

Step 403, the voltage that the DC/DC conversion is exported carries out rectifying and wave-filtering, exports to load.

So far, this flow process finishes.

Fig. 5 is an AC/DC transformer configuration schematic diagram of the present invention, and referring to Fig. 5, this AC/DC converter comprises: input voltage EMI filter circuit, pfc circuit, DC/DC translation circuit, pwm control circuit and output voltage filter circuit, wherein,

Input voltage EMI filter circuit is used for the alternating voltage of input is carried out rectifying and wave-filtering, harmonic wave that comprises with the filtering alternating voltage and the harmonic wave by the electrical network transmission, and export pfc circuit to;

Pfc circuit is used for the voltage of input voltage EMI filter circuit output is carried out power factor correction, forms the PFC busbar voltage, and the control signal according to pwm control circuit output is adjusted to preset value with the PFC busbar voltage;

Preset value can be determined according to the efficient of engineering experience and AC/DC converter, power consumption requirement etc.For example, for the high working voltage that higher load requires, preset value can be 420VDC, and for the low-work voltage that requires than underload, preset value can be 380VDC.

The DC/DC translation circuit, be used for PFC busbar voltage to pfc circuit output, control signal according to pwm control circuit output, break-make by MOS switching tube in the circuit is regulated once more, and carry out dc voltage conversion, the PFC busbar voltage of importing is transformed to the needed voltage of direct-flow voltage regulation of respective load;

The output voltage filter circuit is used for the voltage of DC/DC translation circuit output is carried out filtering, with the stability of the needed voltage of direct-flow voltage regulation of load of further raising output;

Pwm control circuit is used for the voltage according to the output of output voltage filter circuit, generates control signal, controls pfc circuit and DC/DC translation circuit respectively the voltage of input is regulated.

Fig. 6 is another structural representation of AC/DC converter of the present invention, referring to Fig. 6, different with Fig. 5 is, pwm control circuit among Fig. 5 is PFC control circuit and DC/DC control circuit in Fig. 6, wherein, the PFC control circuit adopts special chip, receive the output of output voltage filter circuit, the FPC circuit is controlled, and the DC/DC control circuit adopts the Digital Control circuit, receives the output of output voltage filter circuit, control DC/DC translation circuit and PFC control circuit, utilize the dicyclo control technology, one tunnel output is control DC/DC translation circuit directly, and another road is as the given signal of PFC control circuit.

Fig. 7 is AC/DC converter the 3rd structural representation of the present invention, referring to Fig. 7, different with Fig. 5 is, also comprise PFC control circuit and DC/DC control circuit, wherein, the PFC control circuit links to each other with pwm control circuit with pfc circuit respectively, adopts special chip, the output of reception pwm control circuit is controlled the FPC circuit; The DC/DC control circuit links to each other with pwm control circuit with the DC/DC translation circuit respectively, adopts Digital Control circuit control DC/DC translation circuit; Pwm control circuit utilizes the dicyclo control technology, and one tunnel output is as the given signal of DC/DC control circuit, and another road output is as the given signal of PFC control circuit.

Fig. 8 is an AC/DC converter particular circuit configurations schematic diagram of the present invention, referring to Fig. 8, this AC/DC converter comprises: pfc circuit, DC/DC translation circuit leading-bridge, lagging leg, primary coil, primary side dc voltage output circuit and output voltage filter circuit, wherein, pfc circuit and pfc circuit structure similar shown in Figure 2, DC/DC translation circuit leading-bridge, lagging leg, primary coil, primary side dc voltage output circuit and output voltage filter circuit and phase-shifted full-bridge converter circuit structure shown in Figure 3 are similar, do not repeat them here, different is, in the AC/DC converter particular circuit configurations shown in Figure 8, the control signal of the MOS switch controlled utmost point, respectively from the control signal of pwm control circuit according to the generation of output voltage filter circuit output voltage, in order to regulate PFC busbar voltage and MOS switching tube duty ratio, to improve transducer effciency, reduce power consumption.

As seen from the above-described embodiment, the AC/DC converter of the embodiment of the invention, carry out rectifying and wave-filtering by alternating voltage to input, alternating voltage power factor behind the correction rectifying and wave-filtering, form the PFC busbar voltage, regulate the PFC busbar voltage simultaneously and regulate the duty ratio of the PFC busbar voltage being carried out the MOS switching tube of DC/DC conversion according to the required operating voltage of load, the voltage to DC/DC conversion output carries out rectifying and wave-filtering then, exports to load.Output dc voltage adjustment and load response are realized by pfc circuit and DC/DC translation circuit, regulate the duty ratio of MOS switching tube in the pfc circuit, suitably reduce the PFC busbar voltage of pfc circuit output, thereby make when loaded work piece voltage is low, MOS switching tube in the DC/DC translation circuit can be operated on the higher duty ratio of efficient, in the required direct-current working volts of proof load, improved the efficient of AC/DC converter when output LOW voltage, can satisfy the requirement of input power factor index again, reduce the wastage, help the optimization of translation circuit power consumption and efficient design, have stronger engineering practical value.

More than lift preferred embodiment; the purpose, technical solutions and advantages of the present invention are further described; institute is understood that; the above only is preferred embodiment of the present invention; not in order to restriction the present invention; within the spirit and principles in the present invention all, any modification of being done, be equal to replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (9)

1, a kind of AC/DC converter, comprise input voltage electromagnetic interference EMI filter circuit, output voltage filter circuit, it is characterized in that this AC/DC converter also comprises: power factor correction pfc circuit, DC/DC translation circuit and pulse-width modulation PWM control circuit, wherein

Pfc circuit is used for the voltage of input voltage EMI filter circuit output is carried out power factor correction, output PFC busbar voltage, and the control signal according to pwm control circuit output is adjusted to preset value with the PFC busbar voltage;

The DC/DC translation circuit, be used for control signal according to pwm control circuit output, the duty ratio of complementary metal oxide semiconductors (CMOS) MOS switching tube in the regulating circuit, once more the PFC busbar voltage of pfc circuit output preset value is regulated, and carry out dc voltage conversion, the PFC busbar voltage of the preset value of input is transformed to the needed voltage of direct-flow voltage regulation of respective load;

Pwm control circuit is used for the voltage according to the output of output voltage filter circuit, generates control signal, controls pfc circuit and DC/DC translation circuit respectively the voltage of input is regulated.

2, AC/DC converter as claimed in claim 1 is characterized in that, described pfc circuit comprises: first diode～the 7th diode, first inductance, first resistance, first electric capacity and a MOS switching tube, wherein,

First diode～the 4th diode is formed rectification circuit, is used for the alternating voltage of input is carried out rectification;

The 5th diode～the 7th diode, first inductance, first resistance, first electric capacity and a MOS switching tube are used for that the alternating voltage after the rectification is carried out power factor and regulate; Simultaneously, the grid of a MOS switching tube receives the control signal of pwm control circuit output, regulates the duty ratio of self, the alternating voltage after the rectification is adjusted the PFC busbar voltage of output preset value.

3, AC/DC converter as claimed in claim 1, it is characterized in that described DC/DC translation circuit comprises: phase-shifted full-bridge converter, PWM control full-bridge converter, symmetrical half bridge converter, half-bridge three-level DC/DC converter, cascade full-bridge three-level DC/DC converter, full-bridge three-level DC/DC converter and buck/boost converter.

4, AC/DC converter as claimed in claim 3 is characterized in that, described phase-shifted full-bridge converter comprises: leading-bridge, lagging leg, primary coil and primary side dc voltage output circuit, wherein,

Leading-bridge, first end links to each other with the positive pole of the PFC busbar voltage of described pfc circuit output and first end of lagging leg respectively, second end links to each other with the negative pole of described PFC busbar voltage and second end of lagging leg respectively, the 3rd end links to each other with primary coil one end, and the 4th termination is received the leading-bridge control signal from pwm control circuit;

Lagging leg, the 3rd end links to each other with the primary coil other end, and the 4th termination is received the lagging leg control signal from pwm control circuit;

The predefined phase place of the leading described lagging leg control signal of described leading-bridge control signal;

The primary side dc voltage output circuit is used for exporting the direct voltage of primary coil conversion to the output voltage filter circuit.

5, AC/DC converter as claimed in claim 4 is characterized in that, described leading-bridge comprises: the 2nd MOS switching tube and the 3rd MOS switching tube,

Described the 2nd MOS switching tube between first utmost point and second utmost point, be parallel with the 8th diode and second electric capacity, first utmost point links to each other with the positive pole of described PFC busbar voltage and first end of lagging leg respectively, second utmost point links to each other with first utmost point and primary coil one end of described the 3rd MOS switching tube respectively, and the control utmost point receives the 2nd MOS switch controlled signal from pwm control circuit;

Between first utmost point and second utmost point of described the 3rd MOS switching tube, be parallel with the tenth diode and the 3rd electric capacity, second utmost point links to each other with the negative pole of described PFC busbar voltage and second end of lagging leg respectively, and the control utmost point receives the 3rd MOS switch controlled signal from pwm control circuit;

Described the 2nd MOS switch controlled signal and described the 3rd MOS switch controlled signal complementation.

6, AC/DC converter as claimed in claim 4 is characterized in that, described lagging leg comprises: the 4th MOS switching tube and the 5th MOS switching tube,

Between first utmost point and second utmost point of described the 4th MOS switching tube, be parallel with the 11 diode and the 4th electric capacity, first utmost point extremely links to each other with anodal and the 2nd MOS switching tube first of described PFC busbar voltage respectively, second utmost point links to each other with first utmost point and the primary coil other end of the 5th MOS switching tube respectively, the control utmost point receives the 4th MOS switch controlled signal from pwm control circuit

Between first utmost point and second utmost point of described the 5th MOS switching tube, be parallel with the 12 diode and the 5th electric capacity, second utmost point extremely links to each other with the negative pole and the 3rd MOS switching tube second of described PFC busbar voltage respectively, and the control utmost point receives the 5th MOS switch controlled signal from pwm control circuit

Described the 4th MOS switch controlled signal and described the 5th MOS switch controlled signal complementation.

7, AC/DC converter as claimed in claim 1 is characterized in that, described pwm control circuit comprises PFC control circuit and DC/DC control circuit, wherein, described PFC control circuit is a special chip, receives the output of output voltage filter circuit, and the FPC circuit is controlled;

Described DC/DC control circuit is the Digital Control circuit, receives the output of output voltage filter circuit, one tunnel output control DC/DC translation circuit, and another road output is as the given signal of PFC control circuit.

8, AC/DC converter as claimed in claim 1 is characterized in that, further comprises PFC control circuit and DC/DC control circuit, and wherein, described PFC control circuit is a special chip, receives one tunnel output of pwm control circuit, and the FPC circuit is controlled;

Described DC/DC control circuit is the Digital Control circuit, receives another road output of pwm control circuit, control DC/DC translation circuit.

9, as each described AC/DC converter of claim 4 to 8, it is characterized in that, further comprise resonant inductance, described leading-bridge the 3rd end links to each other with primary coil one end by described resonant inductance.

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