CN107276405B - The fine electric spark pulse power and Discrete control method based on the power supply - Google Patents

Abstract

The present invention discloses a kind of fine electric spark pulse power, including power factor correcting converter, DC-DC converter, loop of power circuit, driving circuit, impulse generator, detection circuit, and wherein loop of power circuit includes 6 switching tube Q_p、Q₁、Q₂、Q₃、Q₄、Q_offWith 1 inductance L_limit, 4 switching tube Q₁‑Q₄It is connected with bridge architecture, switching tube Q_pConnect the outlet side of DC-DC converter and the input side of full-bridge converter, switching tube Q_offAfter in parallel with gap, one end passes through inductance L_limitIt is connected to the midpoint of one of bridge arm, the other end is directly connected to the midpoint of another bridge arm.The invention also discloses the Discrete control methods based on the power supply.Power supply of the invention only includes a loop of power circuit, system constitutes simple, small in size, corresponding Discrete control method carries out the switching of voltage control and current control in a set of loop of power circuit, and voltage control and current control are independent mutually, switch and control precise and stable rapidly.

Description

The fine electric spark pulse power and Discrete control method based on the power supply

Technical field

The invention belongs to electrical discharge machining pulsed-power industry, more particularly to a kind of fine electric spark pulse power and Discrete control method based on the power supply.

Background technique

Continuous positive-negative polarity processing can improve the quality of processing, have certain effect in terms of the shaping of electric discharge pit Fruit.In order to adapt to the requirement of a variety of processing occasions, processing conditions, electric spark working pulse power source must have positive-negative polarity processing Ability.In order to realize that positive-negative polarity is processed, existing electric spark working pulse power source uses full-bridge converter as loop of power circuit Main topology also needs one or more current-limiting resistances in loop of power circuit.Due to the presence of current-limiting resistance, so that the pulse power adds Work is inefficient, is unable to satisfy requirement energy-efficient in micro EDM.

In addition, the striking stage needs the pulse power to apply in tool and piece pole both ends in edm process High voltage, to achieve the purpose that quickly to puncture gap；And gap it is breakdown after discharge regime, then need the pulse power to provide steady Fixed controllable processing electric current reaches satisfied processing effect to avoid overcurrent phenomenon, therefore micro EDM is to electric discharge The Discrete control of voltage and current before and after gap breakdown requires very high.

Patent CN102114559B discloses a kind of alternating polarity pulses power supply, and loop of power circuit includes the first loop of power circuit With the second loop of power circuit, Discrete control is carried out to voltage and current respectively, is discharging gap particular by the first loop of power circuit Guide's breakdown voltage is provided, the discharge current control of discharge regime after gap breakdown is realized by the second loop of power circuit.It is this Two sets of loop of power circuit of composite structured needs, structure is complicated, and there is also detection circuit and controller response speed, switching controls The not arrogant problem of precision processed.

Summary of the invention:

Technical problem solved by the invention is to provide a kind of fine electric spark pulse power and point based on the power supply Section control method can carry out Discrete control, and gap voltage to gap voltage and electric current in positive-negative polarity process Control with electric current is independent mutually, switching rapidly, control effect it is precise and stable.

The technical solution for realizing the aim of the invention is as follows: a kind of fine electric spark pulse power, including power factor school Direct transform device, DC-DC converter, loop of power circuit, driving circuit, impulse generator, detection circuit, alternating voltage pass through function Rate factor correction converter and DC-DC converter export adjustable dc voltage and power to loop of power circuit, between loop of power circuit is given Gap provides positive-negative polarity voltage, and the voltage and current of detection circuit detector gap is sent into impulse generator, impulse generator output Signal is controlled, control signal generates the on-off of switching tube in driving signal driving power circuit, institute after overdrive circuit amplifies Stating loop of power circuit includes 6 switching tube Q_p、Q₁、Q₂、Q₃、Q₄、Q_offWith 1 inductance L_limit, wherein 4 switching tube Q₁-Q₄With bridge-type Structure is connected, switching tube Q_pConnect the outlet side of DC-DC converter and the input side of full-bridge converter, switching tube Q_off After in parallel with gap, one end passes through inductance L_limitIt is connected to the midpoint of one of bridge arm, the other end is directly connected to other one The midpoint of a bridge arm.

The control framework that the impulse generator uses DSP and FPFA to collectively form.

The power MOS pipe of switching tube selection tri- kinds of different materials of Si, SiC or GaN, is respectively applied in the loop of power circuit Three kinds of roughing, semifinishing and microfabrication electrical discharge machining occasions.

Based on the processing method of the fine electric spark pulse power, include the following steps:

Step 1: in a positive polarity process, switching tube Q_pAnd Q₄Remain conducting, Q₂And Q_offIt remains Shutdown, switching tube Q₁、Q₃With inductance L_limitConstitute a Buck code converter, impulse generator control switch pipe Q₁And Q₃Alternately On-off；In a negative polarity process, switching tube Q_pAnd Q₃Remain conducting, Q₁And Q_offIt remains shutdown, switchs Pipe Q₂、Q₄With inductance L_limitConstitute a Buck code converter, impulse generator control switch pipe Q₂And Q₄Alternately on-off；

Step 2: after the completion of process, disconnecting 4 switching tube Q₁-Q₄, then connect switching tube Q_off, accelerating gap deionization Process.

If gap current overcurrent occurs in process, switching tube Q is disconnected_pTerminate processing.

Discrete control method based on the fine electric spark pulse power, includes the following steps:

Step 1: the setting process-cycle, voltage and current threshold value, realizing the Initialize installation of impulse generator；

Step 2: the analog signal of detection circuit real-time sampling gap voltage and electric current carries out AD by impulse generator and turns After changing, the digital signal of gap voltage and electric current is obtained；

Step 3: when a process-cycle starts, impulse generator is according to gap voltage digital signal, gap current number Word signal, voltage threshold and current threshold determine control strategy, if the digital signal of gap current is less than current threshold and voltage Digital signal be greater than voltage threshold, then carry out voltage control；Otherwise it is switched to current control.

Compared with prior art, the present invention its remarkable advantage: 1) the fine electric spark pulse power of the invention, power return Current-limiting resistance is replaced using current-limiting inductance in road, improves processing efficiency.2) the fine electric spark pulse power of the invention, arteries and veins The framework that generator uses DSP+FPGA is rushed, the control of system had both been met and calculates requirement, is in turn ensured at multi signal logic Reason ability and driving speed.3) processing method of the fine electric spark pulse power of the invention becomes full-bridge converter and Buck Parallel operation combines, and can be realized in a loop of power circuit and divides in positive-negative polarity process gap voltage and electric current Section control, simplifies circuit topology, reduces the volume of power-supply system, reduce influence of the parasitic parameter to processing.4) this hair The Discrete control method of the novel fine electric spark pulse power of bright offer, voltage control and current control are feedback closed loop Control, two kinds of controls are independent mutually, do not interfere with each other, and switch rapidly, are effectively guaranteed the accuracy of control.

Detailed description of the invention

Fig. 1 is the hardware block diagram of the fine electric spark pulse power.

Fig. 2 is the electrical block diagram of the power factor correcting converter of the fine electric spark pulse power.

Fig. 3 is the electrical block diagram of the DC-DC converter of the fine electric spark pulse power.

Fig. 4 is the structural schematic diagram of the loop of power circuit of the fine electric spark pulse power.

Fig. 5 is the structural schematic diagram of the driving circuit of the fine electric spark pulse power.

Fig. 6 is the structural schematic diagram of the detection circuit of the fine electric spark pulse power.

Fig. 7 is each stage schematic diagram in the fine electric spark pulse power process-cycle.

Fig. 8 is the flow chart of Discrete control.

Fig. 9 is voltage-controlled flow chart.

Figure 10 is the flow chart of current control.

Specific embodiment

The invention will be further described below in conjunction with the accompanying drawings.

In order to reduce the interference between spark-erosion machine tool system components, the pulse power individually can take electricity from exchange input. Traditional pulse power mostly uses low-frequency transformer and bridge rectifier to be powered on the mode held and rectifies, and the volume of power supply is larger and inputs Power factor is low.For the influence for reducing the volume of power supply to reduce parasitic parameter to processing, and reduce Harmonics of Input To improve input power factor and power-efficient, the fine electric spark pulse power provided by the invention uses level-one function in input side Rate factor correction converter.

As shown in Figure 1, the fine electric spark pulse power, including power factor correcting converter, DC-DC converter, Loop of power circuit, driving circuit, impulse generator, detection circuit, alternating voltage are straight by power factor correcting converter and direct current- Current converter exports adjustable dc voltage and powers to loop of power circuit, and loop of power circuit provides positive-negative polarity voltage, detection electricity to gap The voltage and current of road detector gap is sent into impulse generator, and impulse generator output control signal controls signal through overdriving The on-off of switching tube in driving signal driving power circuit is generated after circuit amplification.As shown in Fig. 2, power number correcting converter is adopted With crisscross parallel Boost power factor because of correcting converter, including a rectifier bridge and two-way Boost PFC electricity Road, as inputting, feeding is single-phase not to control full bridge rectifier, the output feeding two-way crisscross parallel of rectification circuit to power grid alternating current Boost circuit of power factor correction, the identical Boost circuit of power factor correction crisscross parallel work of two-way.Switching tube Q_pfc1 And Q_pfc2Drive signal duty cycle it is equal in magnitude, realize input and output electric current divide equally, double switch pipe Q_pfc1And Q_pfc2Driving Signal differs 180 ° of phase, and every road power is the half of total power input.

The output voltage of power factor correcting converter is fixed and higher, and the input voltage amplitude of actual pulse power supply is uncommon It hopes and is continuously adjusted, therefore need level-one DC-DC converter after power factor correcting converter.

As shown in figure 3, DC-DC converter uses LLC full-bridge controlled resonant converter, switching tube Q_dc1-Q_dc4Constitute full-bridge Inverter circuit, Q_dc1、Q_dc4Using with driving signal all the way, Q_dc2、Q_dc3Using with driving signal all the way, two-way driving signal duty Than identical and there are certain dead zones.Inductance L_r、L_mWith capacitor C_rForm series resonant network, transformer T and diode D_dc1, D_dc2 Full-wave rectifying circuit is constituted, capacitor C is filter capacitor.Resonant capacitance C_rIt is connected on the primary side of transformer, plays the role of blocking, is made Transformer is not easy to be saturated.LLC full-bridge converter makes the electricity at switching tube both ends using the resonance of capacitor and inductance element in circuit Pressure or electric current change in sinusoidal rule for some time in a switch periods, so that all switch tube zeros in converter Voltage is open-minded, and secondary end diode zero-current switching greatly reduces switching loss, improves power-efficient.

Output voltage by controlling DC-DC converter can adjust forward and reverse pulse voltage amplitude, and direct current-is straight Current converter is used to provide the 100-300V DC voltage with certain adjustable range, the input as loop of power circuit.

As shown in figure 4, loop of power circuit includes 6 switching tube Q_p、Q₁-Q₄、Q_offWith 1 inductance L_limit.Loop of power circuit uses It is topological based on full-bridge converter, wherein 4 switching tube Q₁-Q₄It is connected with bridge architecture, Q₁And Q₃It is opened for above and below a bridge arm two Guan Guan, Q₂And Q₄For two switching tubes above and below another bridge arm.Switching tube Q_pThe outlet side and full-bridge for connecting DC-DC converter become The input side of parallel operation, switching tube Q_offBe connected in parallel on the both ends of workpieces processing and tool, the output end of inductance connection full-bridge converter and Workpieces processing.

Switching tube uses the power MOS pipe of tri- kinds of different materials of Si, SiC and GaN in loop of power circuit, is respectively applied to slightly add Three kinds of work, semifinishing and microfabrication electrical discharge machining occasions.Si metal-oxide-semiconductor is a kind of metal-oxide-semiconductor used earliest, low in It has a meeting, an audience, etc. well under one's control and closes conducting resistance very little, working characteristics is preferable, and with the promotion of stress levels, Si metal-oxide-semiconductor conducting resistance is big, high temperature is steady It is qualitative it is poor, working frequency is low, therefore Si metal-oxide-semiconductor is relatively specific for the roughing occasion not high to operating frequency requirements.SiC Metal-oxide-semiconductor has the characteristics that blocking voltage is high, working frequency is high and heat-resisting ability is strong, while having on state resistance low again and switch Small feature is lost, processes occasion especially suitable for 1200V or more high pressure-temperature, therefore SiC metal-oxide-semiconductor can satisfy high voltage Semi-finished requirement is carried out under occasion.GaN metal-oxide-semiconductor uses newest manufacturing process, and switching frequency can reach several MHz, And since GaN metal-oxide-semiconductor endobiosis capacitor is small, so that very little is lost in devices switch under high-frequency work, therefore GaN metal-oxide-semiconductor is applicable in Occasion is processed in high frequency, therefore GaN metal-oxide-semiconductor can satisfy the requirement that microfabrication is carried out under high frequency occasion.

The signal that the on-off of 6 switching tubes is controlled in loop of power circuit is generated by impulse generator, and impulse generator uses The control framework collectively formed by DSP and FPFA.DSP is master control chip in the present invention, and model TMS320F28335 is A high-performance 32-bit float-point DSP processor of TI company.FPGA is high speed actuator, and model EP4CE15F23C8 is The high speed processor of altera corp's Cyclone IV series, clock frequency are up to 472MHz, are equipped with two-way high speed, high-precision Input and six tunnels high speed, high-precision DA conversion chip of the AD conversion chip for sampled signal are defeated for pwm control signal Out.Real-time communication agreement is integrated between DSP and fpga chip.

Since the switch controlled signal driving capability that impulse generator issues is inadequate, it is not enough to the logical of driving switch pipe It is disconnected, therefore driving circuit is needed between impulse generator and power circuit, for control signal that impulse generator is issued into Row amplification, output certain voltage amplitude meet the driving signal of driving capability.

As shown in figure 5, driving circuit drives 6 metal-oxide-semiconductors, each driving core using 3 identical metal-oxide-semiconductor driving chips Piece and its external circuit be all it is identical, one of driving chip and its external circuit are as shown in Figure 5.Driving chip uses TI The UCC27214 chip of company, the ability with high-side driver, is highly suitable as the driving chip of switching tube in full-bridge circuit. Supply voltage V_DDIt is powered using+15V to 7 pin VDD of chip, control the signal PWM1 and PWM2 that impulse generator issues are sent respectively The high side for entering chip inputs 1 pin HI and downside inputs 2 pin LI, and a bootstrapping electricity is connected between 13 pin HB and 11 pin HS Hold C_BOOT, high side 12 pin HO of output are by amplified high side driving signal by grid resistance R_HOIt is sent into high side metal-oxide-semiconductor Q₁'s Grid, 11 pin HS connection high side metal-oxide-semiconductor Q₁Source electrode, downside export 6 pin LO amplified low side driving signal is passed through Grid resistance R_LOIt is sent into downside metal-oxide-semiconductor Q₂Grid, 5 pin COM connection downside metal-oxide-semiconductor Q₂Source electrode.

Gap voltage and gap current are controlled respectively in the different stages, it is necessary to have detection electricity precisely in real time Detector gap voltage and current is carried out on road, then the signal that will test is sent into impulse generator.

As shown in fig. 6, detection circuit is made of voltage detecting circuit and current detection circuit, including 1 potentiometer W, 2 Operational amplifier U₁And U₂And 1 current sensor CS.One end of potentiometer W is connected with tool, the other end and workpieces processing phase Even, movable contact and operational amplifier U₁Non-inverting input terminal be connected, operational amplifier U₁Inverting input terminal be connected with output end, Constitute a voltage follower.The signal detection termination of current sensor CS is connected in processing circuit, current sensor CS's Signal output end and operational amplifier U₂Non-inverting input terminal be connected, operational amplifier U₂Inverting input terminal be connected with output end, Constitute a voltage follower.

Potentiometer W is used to detect gap voltage between workpieces processing and tool, by movable contact gap voltage press than Operational amplifier U is sent into after example partial pressure₁, the resistance value of potentiometer W should choose tens of to hundreds of M Ω, so that it is to processing gap Influence minimizes, and in micro EDM, pulsewidth is very narrow, it is therefore desirable to the detection that voltage detecting circuit (6) can be very fast To the variation of processing gap voltage, the demand of micro EDM can satisfy using the method that voltage detects.Electric current Sensor CS uses ACS758LCB-100B-PFF-T model, ambipolar high current signal can be converted to unipolar small electricity Signal is pressed, detection accuracy is high, realizes convenient and reliable.

Based on the novel spark pulse power that aforementioned present invention provides, processing method specific embodiment party provided by the invention Formula is as follows:

In a positive polarity process, switching tube Q_pAnd Q₄Remain conducting, Q₂And Q_offIt remains shutdown, opens Close pipe Q₁、Q₃With inductance L_limitA Buck code converter is constituted, impulse generator is to the gap voltage of sampling and the number of electric current Word signal, after segmentation carries out voltage and current control, output pwm control signal drives switching tube Q after overdrive circuit amplifies₁ And Q₃Alternately on-off；In a negative polarity process, switching tube Q_pAnd Q₃Remain conducting, Q₁And Q_offRemain pass It is disconnected, switching tube Q₂、Q₄With inductance L_limitConstitute a Buck code converter, gap voltage and electric current of the impulse generator to sampling Digital signal, segmentation carry out voltage and current control after, export pwm control signal driving switch after overdrive circuit amplifies Pipe Q₂And Q₄Alternately on-off；

After the completion of process, gap enters the deionization stage, controls without voltage and current, impulse generator output Pwm control signal drives 4 switching tube Q after overdrive circuit amplifies₁-Q₄It is all off, driving switch pipe again after of short duration delay Q_offIt is open-minded, the process of accelerating gap deionization.

Based on the novel spark pulse power that aforementioned present invention provides, gap voltage and gap current provided by the invention Discrete control method specific embodiment it is as follows:

In the processing of the novel fine electric spark pulse power in a process-cycle each stage schematic diagram as shown in fig. 7, one Process-cycle includes process segment and deionization stage, and the process segment includes striking stage and discharge regime, a processing week again 0~t of phase₃In period, t at the time of the deionization stage starts₂And process-cycle t at the time of terminate₃All set , the switch instant t of striking stage and discharge regime₁At the time of being that gap is breakdown, influenced by gap state and property Change constantly.In the striking stage, gap is not also breakdown, and gap current very little is almost 0, and gap voltage is established rapidly simultaneously Rise, gap voltage rises the too fast biggish overshoot of generation in order to prevent, influences the stability of whole system, it is necessary to gap electricity Pressure is controlled, and stablizes it near a steady state value；When gap is breakdown, discharge regime is entered, by backlash characteristics It influences gap voltage to drop sharply near a metastable maintenance voltage, gap current rises rapidly, and at this moment immediately will Voltage control is converted to current control, and gap current is stablized near a steady state value, prevents overcurrent from leading to gap shorting, and And the quality of processing can be improved in stable electric current.Voltage control and current control are worked independently, are not interfere with each other.

Discrete control main program flow chart in impulse generator main program Initialize installation as shown in figure 8, can set Process-cycle T1, the cycle T in deionization stage 2, gap voltage given value vref, gap current given value iref, gap voltage Threshold value vth and gap current threshold value ith.Detection circuit by the analog signal vgap of the gap voltage of sampling and gap current and Igap is respectively fed to two-way AD conversion chip in impulse generator, obtains the digital signal vgapd of gap voltage and gap current And igapd.When a process-cycle T1 starts, into the process segment, main program judges the digital signal vgapd of gap voltage Whether voltage threshold vth is less than, and whether the digital signal igapd of gap current is greater than current threshold ith, in main program Equipped with variable nctr, variable nctr is set 1 when Rule of judgment is unsatisfactory for, being now in the striking stage takes voltage control, will be electric The pwm control signal vpwm of voltage-controlled subprogram output is sent into high speed D/A conversion chip；Once Rule of judgment meets, will become immediately Amount nctr sets 0, is now in discharge regime and takes current control, the pwm control signal ipwm that current control subprogram is exported It is sent into high speed D/A conversion chip.When the deionization stage, T2 started, into the deionization stage, gap voltage given value vref and Gap given value of current value iref is set as 0, without voltage control and current control.

Voltage controls subroutine flow chart as shown in figure 9, the digital signal vgapd of gap voltage, which is sent into voltage, controls sub- journey Sequence, compared with gap voltage given value vref after generate error signal, which is calculated by PID control program, Calculated result generates program using PWM wave and is handled, and output frequency fixes, the pwm control signal vpwm of variable duty ratio.

Current control subroutine flow chart is as shown in Figure 10, and the digital signal igapd of gap current is sent into current control Program, compared with gap current given value iref after generate error signal, which is counted by PID control program It calculates, calculated result generates program using PWM wave and handled, and output frequency fixes, the pwm control signal of variable duty ratio ipwm。

Determine that voltage control switches to the time of current control, voltage control and electric current by the state change of variable nctr Control, which realizes, to be worked independently from each other, and DA conversion chip can be just ultimately delivered to by only corresponding to the pwm control signal under control model Output, to control the on-off of respective switch pipe in loop of power circuit (3).

Claims (6)

1. a kind of fine electric spark pulse power, including power factor correcting converter, DC-DC converter, loop of power circuit, Driving circuit, impulse generator, detection circuit, alternating voltage pass through power factor correcting converter and DC-DC converter It exports adjustable dc voltage to power to loop of power circuit, loop of power circuit provides positive-negative polarity voltage to gap, between detection circuit detection The voltage and current of gap is sent into impulse generator, impulse generator output control signal, and control signal amplifies through overdrive circuit The on-off of switching tube in driving signal driving power circuit is generated afterwards, which is characterized in that the loop of power circuit includes 6 switching tubes Q_p、Q₁、Q₂、Q₃、Q₄、Q_offWith 1 inductance L_limit, wherein 4 switching tube Q₁-Q₄It is connected with bridge architecture, switching tube Q_pConnection The outlet side of DC-DC converter and the input side of full-bridge converter, switching tube Q_offAfter in parallel with gap, one end passes through electricity Feel L_limitIt is connected to the midpoint of one of bridge arm, the other end is directly connected to the midpoint of another bridge arm.

2. the fine electric spark pulse power according to claim 1, which is characterized in that the impulse generator uses DSP The control framework collectively formed with FPGA.

3. the fine electric spark pulse power according to claim 1, which is characterized in that switching tube selects in the loop of power circuit The power MOS pipe of tri- kinds of different materials of Si, SiC or GaN is selected, wherein Si is applied to roughing electrical discharge machining occasion, SiC is applied In semifinishing electrical discharge machining occasion, GaN is applied to microfabrication electrical discharge machining occasion.

4. the processing method based on the described in any item fine electric spark pulse powers of claim 1-3, which is characterized in that including Following steps:

Step 1: in a positive polarity process, switching tube Q_pAnd Q₄Remain conducting, Q₂And Q_offRemain shutdown, Switching tube Q₁、Q₃With inductance L_limitConstitute a Buck code converter, impulse generator control switch pipe Q₁And Q₃Alternately on-off； In a negative polarity process, switching tube Q_pAnd Q₃Remain conducting, Q₁And Q_offRemain shutdown, switching tube Q₂、Q₄ With inductance L_limitConstitute a Buck code converter, impulse generator control switch pipe Q₂And Q₄Alternately on-off；

Step 2: after the completion of process, disconnecting 4 switching tube Q₁-Q₄, then connect switching tube Q_off, the mistake of accelerating gap deionization Journey.

5. processing method according to claim 4, which is characterized in that if gap current overcurrent occurs in process, Then disconnect switching tube Q_pTerminate processing.

6. the Discrete control method based on the described in any item fine electric spark pulse powers of claim 1-3, which is characterized in that Include the following steps:

Step 1: the setting process-cycle, voltage and current threshold value, realizing the Initialize installation of impulse generator；

Step 2: the analog signal of detection circuit real-time sampling gap voltage and electric current is AD converted by impulse generator Afterwards, the digital signal of gap voltage and electric current is obtained；

Step 3: when a process-cycle starts, impulse generator is believed according to gap voltage digital signal, gap current number Number, the relationship between voltage threshold and current threshold determine control strategy, if the digital signal of gap current is less than current threshold And the digital signal of voltage is greater than voltage threshold, then carries out voltage control；Otherwise it is switched to current control.