CN107070195A - The totem circuit of power factor correction of half power frequency period resonant type soft-switch structure - Google Patents

Abstract

The present invention relates to a kind of totem circuit of power factor correction of half power frequency period resonant type soft-switch structure, including：The main power circuit of totem topology, the totem PFC is realized the auxiliary switching circuit of resonant type soft-switch, input voltage zero-crossing detection circuit, input electric cur- rent measure circuit, output voltage detecting circuit and detect according to the voltage over zero circuit, the signal of input electric cur- rent measure circuit and output voltage detecting circuit controls the control circuit of the main power circuit and the auxiliary switching circuit；The control circuit is according to the detection signal of the output voltage detecting circuit, input electric cur- rent measure circuit and input voltage zero-crossing detection circuit come output driving pulse, to control the auxiliary switching circuit and the totem circuit of power factor correction to realize resonance, the power switch pipe of the totem PFC is set to realize that no-voltage is open-minded in half of power frequency period, so as to reduce the switching loss of main circuit, overall efficiency is improved.

Description

The totem circuit of power factor correction of half power frequency period resonant type soft-switch structure

Technical field

The present invention relates to a kind of single phase power factor correcting circuit (PFC), more particularly to one kind can be in half of power frequency period The circuit of power factor correction (PFC) of the interior totem pole configuration for carrying out resonant type soft-switch.

Background technology

High efficiency, High Power Factor, low cost are always the developing goal of circuit of power factor correction (PFC) technology.Figure The PFC of rod structure is risen compared with conventional full-bridge PFC, Dual Boost PFC etc., its power semiconductor quantity used The reverse recovery loss of less, the work of its power frequency diode is also small, with the advantage in terms of efficiency, cost.However, at present Some totem pole configuration PFC power switch pipe is more to work under hard switching state, and its switching loss and voltage stress are larger.With The development of the high-speed semiconductor switching device technology of new generation such as gallium nitride (GaN), carborundum (SiC), speed-sensitive switch is to PFC skills Art also brings new technology challenge and opportunity, and further improvement totem pole configuration PFC efficiency and performance, which just turns into have, well should With the technique direction of prospect.

For example, (the China Patent Publication No. of patent document 1：CN104852567A a kind of Sofe Switch totem) is disclosed without bridge Power factor correction circuit, including the sampling of boost inductance, input current, totem are without bridge topology, resonance passive network, filtered electrical Road, output voltage sampling, control circuit, voltage zero-cross detection.By totem without on bridge topological main circuit increase inductance, electricity The resonant network that appearance, diode passive element are constituted, each PWM of two switching devices of control in input power positive-negative half-cycle During dutycycle, one as main switch, one as resonant switch, realization need not increase auxiliary power switch can ensure totem Post without upper two switching devices of bridge topology be operated in no-voltage conducting, zero-current switching Sofe Switch state, circuit efficiency obtains Larger raising is arrived.But, the program can only realize Sofe Switch in power network whole cycle, i.e., positive half cycle and negative half period.

The content of the invention

Present invention solves the technical problem that being：In order to improve the loss technology that existing totem pole configuration PFC hard switchings are caused Problem, builds a kind of totem PFC for the new construction that resonant type soft-switch can be realized in half of power frequency period.

To reach above-mentioned purpose, the technical solution adopted by the present invention is：

A kind of totem circuit of power factor correction of half power frequency period resonant type soft-switch structure, including totem topology Main power circuit, the totem PFC is realized the auxiliary switching circuit of resonant type soft-switch, input voltage zero-crossing examination electricity Road, input electric cur- rent measure circuit, output voltage detecting circuit and according to the voltage over zero detect circuit, input current The signal of detection circuit and output voltage detecting circuit controls the control of the main power circuit and the auxiliary switching circuit Circuit；The control circuit is examined according to the output voltage detecting circuit, input electric cur- rent measure circuit and input voltage zero crossing The detection signal of slowdown monitoring circuit carrys out output driving pulse, to control the auxiliary switching circuit and the totem PFC Circuit realiration resonance, makes the power switch pipe of the totem PFC realize that no-voltage is open-minded in half of power frequency period, so as to subtract The switching loss of few main circuit, improves overall efficiency.

The present invention further technical scheme be：The main power circuit of the totem topology includes power semiconductor switch S₁, power semiconductor switch S₂, power semiconductor switch Q₁, power semiconductor switch Q₂, boost inductance L₁；The boost inductance L₁ One end connects S₁Drain electrode and S₂Source electrode, the other end connect input single-phase alternating current live wire L ends, the S₁Source electrode connection The negative pole of DC output end, the S₂Drain electrode connection DC output end positive pole, the Q₁Negative pole and the Q₂Positive pole be total to With the zero line N-terminal of connection input single-phase alternating current, the Q₁Positive pole connect the negative pole of DC output end, the Q₂Negative pole in succession Connect the positive pole of VD, the S₁、S₂Gate pole connection from it is described control circuit driving pulse.

The present invention further technical scheme be：The auxiliary switching circuit includes power semiconductor switch S_r, resonance electricity Hold C_sa, resonant inductance L_r, fast recovery diode D_r1And D_r2；The S_rSource electrode be connected with DC output end negative pole, resonant inductance L_rConnect the S_rDrain electrode and the D_r1Negative pole, the D_r2Positive pole connect the S_rDrain electrode, D_r3Negative pole connection it is straight Flow the positive pole of output end, the D_r1Positive pole connect the power semiconductor switch S₁Drain electrode and the power semiconductor switch S₂Source electrode, the resonant capacitance C_saConnect DC output end negative pole and the power semiconductor switch S₁Drain electrode, the S_r's Driving pulse of the gate pole connection from control circuit.

The present invention further technical scheme be：The control circuit is adopted with the main power circuit, the auxiliary circuit With the mode of isolation drive.

The present invention further technical scheme be：It is described to control circuit to be DSP.

The present invention further technical scheme be：Described control circuit is according to the output voltage detecting circuit, described Input electric cur- rent measure circuit, the detection signal of the input voltage zero-crossing detection circuit determine each driving pulse dutycycle and Phase simultaneously produces driving pulse, makes the switch of the totem PFC main circuit, the auxiliary circuit by fixed frequency Rate works.

The present invention further technical scheme be：The driving pulse that the control circuit is exported to the auxiliary switching circuit Signal is ahead of the drive pulse signal exported to the main power circuit, and the advanced time is t_d, and t_d≥t₀₁+t₁₂, wherein, t₀₁It is resonant inductance electric current i_LrStart to rise to inductive current i from above freezing_L1Time, i.e.,V₀For output end direct current Magnitude of voltage, L_rFor resonant inductance value；t₁₂It is resonant switch S_rAfter opening, electric capacity C_saResonant discharge, until electric capacity C_saVoltage is zero Time,C_saFor resonant capacitance value.

The present invention further technical scheme be：The power semiconductor switch S₁And S₂For appointing in GaN, MOS, IGBT One kind, the power semiconductor switch Q₁And Q₂For any of GaN, MOS, IGBT or fast recovery diode.

The solution have the advantages that：Construct a kind of can realize the totem of resonant type soft-switch in half of power frequency period The circuit of power factor correction (PFC) of structure.The present invention is on the basis of totem PFC is used as main power circuit, design Resonant type soft-switch auxiliary circuit, it is open-minded to realize no-voltage to the power switch pipe of the totem PFC, reduces switch and damages Consumption, improves the overall efficiency of power supply.The present invention is, according to resonant type soft-switch principle, using resonance phenomena, to make main switching device In voltage or electric current by the change of sinusoidal or quasi sine rule.Make main switching device open-minded when voltage natural zero-crossing, or electric current During natural zero-crossing, turn off main switching device, so as to reduce loss.

Brief description of the drawings

Fig. 1 is the totem PFC of half power frequency period resonant type soft-switch of the invention schematic diagram；

Fig. 2 is the circuit diagram of the totem PFC of present invention main power circuit；

Fig. 3 is the totem PFC of present invention auxiliary switching circuit figure；

Fig. 4 is the totem PFC of present invention mains voltage, current waveform；

Control circuit output drive signal sequential and main circuit Vital Voltage, electric current that Fig. 5 is the totem PFC of the present invention Waveform.

Embodiment

With reference to specific embodiment, technical solution of the present invention is further illustrated.

As shown in figure 1, the present invention's can realize the totem power factor school of resonant type soft-switch in half of power frequency period Positive circuit (PFC), including totem topology main power circuit, the auxiliary of resonant type soft-switch, which is opened, to be realized to the totem PFC Powered-down road, input voltage zero-crossing detection circuit, input electric cur- rent measure circuit, output voltage detecting circuit and according to described Voltage over zero detects the signal of circuit, input electric cur- rent measure circuit and output voltage detecting circuit to control the main power electricity Road and the control circuit of the auxiliary switching circuit.The control circuit is according to the output voltage detecting circuit, input current The detection signal of detection circuit and input voltage zero-crossing detection circuit carrys out output driving pulse, to control the auxiliary switch electricity Road and the totem circuit of power factor correction realize resonance, make the power switch pipe of the totem PFC in half of power frequency Realize that no-voltage is open-minded in cycle, so as to reduce the switching loss of main circuit, improve overall efficiency.

In the specific embodiment of the present invention, the control circuit is examined according to the output voltage detecting circuit, input current Slowdown monitoring circuit, the detection signal of input voltage zero-crossing detection circuit determine the dutycycle and phase of each driving pulse and produce driving Pulse, makes the main power circuit, the switch of the auxiliary circuit be worked by fixed frequency, and the control circuit is to described The drive pulse signal of auxiliary circuit output is always ahead of the drive pulse signal of output.Circuit is controlled to control electricity using DSP Road.

In the specific embodiment of the present invention, as shown in Figure 2, the main power circuit of the totem topology includes power half Conductor switchs S₁, power semiconductor switch S₂, power semiconductor switch Q₁, power semiconductor switch Q₂, boost inductance L₁.The liter Voltage inductance L₁One end connects S₁Drain electrode and S₂Source electrode, the other end connect input single-phase alternating current live wire L ends, the S₁'s Source electrode connects the negative pole of DC output end, the S₂Drain electrode connection DC output end positive pole, the Q₁Negative pole and the Q₂ Positive pole connect the zero line N-terminal of input single-phase alternating current, the Q jointly₁Positive pole connect the negative pole of DC output end, the Q₂'s Negative pole connects the positive pole of VD, the S in succession₁、S₂Gate pole connection from it is described control circuit driving pulse.Tool In body embodiment, the power semiconductor switch S₁、S₂Can be any of GaN, MOS, IGBT, the power semiconductor is opened Close Q₁、Q₂Can be any of fast recovery diode, synchronous rectification GaN, synchronous rectification MOS.

In the specific embodiment of the present invention, the auxiliary switching circuit includes power semiconductor switch S_r, resonant capacitance C_sa、 Resonant inductance L_r, fast recovery diode D_r1And D_r2.The S_rSource electrode be connected with DC output end negative pole, resonant inductance L_rConnection The S_rDrain electrode and the D_r1Negative pole, the D_r2Positive pole connect the S_rDrain electrode, D_r3Negative pole connection direct current output The positive pole at end, the D_r1Positive pole connect the power semiconductor switch S₁Drain electrode and the power semiconductor switch S₂Source Pole, the resonant capacitance C_saConnect DC output end negative pole and the power semiconductor switch S₁Drain electrode, the S_rGate pole Connect the driving pulse from control circuit.The control circuit is used with the main power circuit, the auxiliary circuit isolates The mode of driving.Accompanying drawing 2 shows the auxiliary switching circuit and its connection in the totem PFC, and accompanying drawing 3 specifically shows The structure of auxiliary switching circuit is gone out.

Specific work process is：Single phase ac input voltage is rectified output after the main power circuit of totem pole configuration DC voltage V₀, control circuit according to output voltage detecting circuit detection signal, the detection signal of input electric cur- rent measure circuit, The detection signal of input voltage zero-crossing detection circuit, is necessarily accounted for the main power circuit and auxiliary switching circuit output Sky makes output DC voltage V than the driving pulse with phase₀Stablize, also make AC input current waveform close to sine wave.Together When, the driving pulse exported to the auxiliary circuit is ahead of certain to the driving pulse of totem PFC main circuits output Time, thus make the auxiliary switch S of auxiliary switching circuit_rIt is first open-minded, resonant capacitance C on auxiliary circuit_saWith resonant inductance L_r Resonance is carried out, resonant capacitance C is recycled_saBy totem PFC power semiconductor switch S₂Voltage clamping is between source electrode and drain electrode 0, totem PFC power semiconductor switch S is now given again₁Come open-minded with driving pulse, be achieved that main switch S₁No-voltage open It is logical.Totem PFC Sofe Switch is so achieved that, the problem of hard switching is lost is improved, higher efficiency is realized.

As shown in figures 4 and 5, further specific implementation process is：Single phase ac input voltage is through totem PFC Main power circuit boost inductance L₁, power semiconductor switch S₁, power semiconductor switch S₂, power semiconductor switch Q₁, work( Rate semiconductor switch Q₂Rectifier boost is exported, detection signal, input electricity of the control circuit according to output DC voltage detection circuit The detection signal of current detection circuit determines to make totem PFC be output as required voltage V₀Dutycycle, and export duty ratio corresponding Drive pulse signal to totem PFC.The detection signal of input voltage zero-crossing detection circuit is input to the control circuit, When detect input L positive N it is negative when, the drive pulse signal of the corresponding dutycycle of control circuit control output to totem PFC power Semiconductor switch S₁, while controlling circuit control to be output to totem PFC power semiconductor switch S₂Drive pulse signal therewith Complementation, and retain certain dead time；N timings, the drive of control circuit control output duty ratio corresponding are born when detecting input L Moving pulse signal is to totem PFC power semiconductor switch S₂, while controlling circuit control output to totem PFC power partly to lead Body switchs S₁Drive pulse signal it is complementary therewith, and retain certain dead time.When detect input L positive N it is negative when, control Circuit control is exported to auxiliary switching circuit power semiconductor switch S_rDrive pulse signal to be ahead of totem PFC power Semiconductor switch S₁On drive pulse signal, i.e. power semiconductor switch S_rPower semiconductor switch S when opening₁It is off State, now inductance L₁Electric current i_LrPersistently rise to equal to output current i_i, due to resonant inductance L_rPresence, inductive current i_Lr It may proceed to rise, now resonant inductance L_rWith resonant capacitance C_saPass through fast recovery diode D_r1With power semiconductor switch S_rFormed Unidirectional circuit, produces resonance, inductive current i_LrTo resonant capacitance C_saCharging, makes resonant capacitance C_saIt is zero to be discharged to voltage, so that By power semiconductor switch S₁Voltage clamping now controls circuit control output driving pulse again to zero volt between drain electrode and source electrode Signal is to totem PFC power semiconductor switch S₁, realize S₁No-voltage it is open-minded.The S_rThe advanced time of drive signal t_dIt should be greater than being equal to inductive current i_LrPersistently rise to equal to electric current i_iTime t₀₁With resonant capacitance C_saIt is zero to be discharged to voltage Time t₀₂Sum, i.e. t_d≥t₀₁+t₁₂, wherein,

N timings, totem PFC power semiconductor switch S are born when detecting input L₁Play synchronous rectification, control electricity Lu Buxiang auxiliary switching circuit output pulse signals, auxiliary circuit power switch pipe disconnects in half of power frequency period herein, now Totem PFC is in hard switching state.Therefore, the present invention realizes the resonance soft of PFC in half of power frequency period Switch.This improves the shortcoming of traditional totem PFC hard switchings, totem PFC power is realized with resonance principle and is partly led Body switchs S₁No-voltage it is open-minded, reduce loss.

It is of the invention to be compared with common totem PFC, the auxiliary circuit of resonant type soft-switch is realized by adding, effectively Solve the problems, such as loss and asking for Sofe Switch can not be realized in half of power frequency period that totem PFC down tube hard switchings cause Topic, makes totem PFC down tube no-voltages open-minded, reduces turn-on consumption, and complete machine effect is improved on the basis of PFC performances are ensured Rate.

Above content is to combine specific preferred embodiment further description made for the present invention, it is impossible to assert The specific implementation of the present invention is confined to these explanations.For general technical staff of the technical field of the invention, On the premise of not departing from present inventive concept, some simple deduction or replace can also be made, should all be considered as belonging to the present invention's Protection domain.

Claims (7)

1. a kind of totem circuit of power factor correction of half power frequency period resonant type soft-switch structure, it is characterised in that the work( Rate factor correcting circuit includes：The main power circuit of totem topology, the auxiliary that resonant type soft-switch is realized to the totem PFC On-off circuit, input voltage zero-crossing detection circuit, input electric cur- rent measure circuit, output voltage detecting circuit and according to institute The signal of voltage over zero detection circuit, input electric cur- rent measure circuit and output voltage detecting circuit is stated to control the main power The control circuit of circuit and the auxiliary switching circuit；The control circuit is according to the output voltage detecting circuit, input electricity The detection signal of current detection circuit and input voltage zero-crossing detection circuit carrys out output driving pulse, to control the auxiliary switch Circuit and the totem circuit of power factor correction realize resonance, make the power switch pipe of the totem PFC in half of work Realize that no-voltage is open-minded in the frequency cycle, so as to reduce the switching loss of main circuit, improve overall efficiency.

2. circuit of power factor correction according to claim 1, it is characterised in that：The main power electricity of the totem topology Road includes power semiconductor switch S₁, power semiconductor switch S₂, power semiconductor switch Q₁, power semiconductor switch Q₂, boosting Inductance L₁；The boost inductance L₁One end connects S₁Drain electrode and S₂Source electrode, the other end connect input single-phase alternating current live wire L ends, the S₁Source electrode connect DC output end negative pole, the S₂Drain electrode connection DC output end positive pole, the Q₁'s Negative pole and the Q₂Positive pole connect the zero line N-terminal of input single-phase alternating current, the Q jointly₁Positive pole connect the negative of DC output end Pole, the Q₂Negative pole connect the positive pole of VD, the S in succession₁、S₂Gate pole connection from the control circuit Driving pulse.

3. circuit of power factor correction according to claim 2, it is characterised in that：The auxiliary switching circuit includes power Semiconductor switch S_r, resonant capacitance C_sa, resonant inductance L_r, fast recovery diode D_r1And D_r2；The S_rSource electrode and direct current output Hold negative pole connection, resonant inductance L_rConnect the S_rDrain electrode and the D_r1Negative pole, the D_r2Positive pole connect the S_r's Drain electrode, D_r3Negative pole connect DC output end positive pole, the D_r1Positive pole connect the power semiconductor switch S₁Drain electrode With the power semiconductor switch S₂Source electrode, the resonant capacitance C_saConnect DC output end negative pole and the power semiconductor Switch S₁Drain electrode, the S_rGate pole connection from control circuit driving pulse.

4. the circuit of power factor correction according to claim any one of 1-3, it is characterised in that：The control circuit and institute Main power circuit, the auxiliary circuit are stated by the way of isolation drive.

5. the circuit of power factor correction according to claim any one of 1-3, it is characterised in that：It is described to control the circuit to be DSP。

6. the circuit of power factor correction according to claim any one of 1-3, it is characterised in that：Described control circuit root According to the output voltage detecting circuit, the input electric cur- rent measure circuit, the input voltage zero-crossing detection circuit detection Signal determines the dutycycle and phase of each driving pulse and produces driving pulse, makes the main electricity of totem PFC Road, the switch of the auxiliary circuit work by fixed frequency.

7. the circuit of power factor correction according to claim any one of 1-3, it is characterised in that：It is described to control circuit to institute The drive pulse signal for stating auxiliary switching circuit output is ahead of the drive pulse signal exported to the main power circuit, in advance Time be t_d, and t_d≥t₀₁+t₁₂, wherein, t₀₁It is resonant inductance electric current i_LrStart to rise to inductive current i from above freezing_L1When Between, i.e.,V₀For output end DC voltage value, L_rFor resonant inductance value；t₁₂It is resonant switch S_rAfter opening, electric capacity C_saResonant discharge, until electric capacity C_saThe time that voltage is zero,C_saFor resonant capacitance value.