CN101867300B - Control method and control device for matrix converter - Google Patents

Abstract

The invention discloses a control method for a matrix converter. When voltage intervals are switched, the waveform of a triangular carrier wave is changed to be a sawtooth wave to prevent the input voltage short circuit caused by small pulse. The invention also provides a device for realizing the method, which comprises a driving amplifier circuit, a voltage type four-step commutation unit, a voltage value comparison unit, a matrix transformation switch combined control unit, an input voltage interval and an angle detection unit.

Description

The control method of matrix converter and control device

Technical field

The present invention relates to matrix converter control field, particularly relate to a kind of control method of matrix converter.The invention still further relates to the control device of said matrix converter.

Background technology

Matrix converter is a kind of novel friendship-friendship direct converter with good input-output characteristic.It need not jumbo energy storage unit, can make input current sinusoidal, and input power factor can reach in theory ± 1, but and free adjustment, and irrelevant with the power factor of load.The frequency of output voltage and adjustable amplitude value, output frequency can be higher or lower than incoming frequency, but particularly its power two-way flow has the four quadrant running ability.

Fig. 1 is a typical three-phase matrix converter topology diagram.Three-phase matrix converter is made up of by 3 * 3 switch matrix forms nine bidirectional switchs 2, can make output phase A, B, C import with any one that a, b, c directly connect mutually through controlling nine bidirectional switchs 2.Bidirectional switch 2 generally selects for use two insulated gate bipolar transistors (IGBT) to form through " common emitter " or " common collector " mode.The output phase A of Fig. 3 representing matrix converter links to each other with input three-phase a, b, c through three groups of two-way power switch, and wherein every group of two-way power switch is made up of through " common emitter " two IGBT.If two IGBT are open-minded simultaneously, electric current is flowed to both direction.

Double space Vector Modulation strategy according to input current and output voltage; It becomes virtual ac-dc-ac transform device with the matrix converter equivalence; DC link wherein is virtual, utilizes space vector modulation technique to realize virtual rectification and virtual inversion then respectively, and is at last that both are comprehensive; Obtain required modulating function matrix, realize linear transformation.In the matrixing process, need to import phase voltage and be divided into 6 intervals, i.e. ISECTOR is shown in Fig. 2 (a); Output line voltage is divided into 6 intervals, i.e. VSECTOR is like Fig. 2 ((b).If input b phase (output B phase) voltage produces by the principle of the input a phase that lags behind (output A phase) voltage 2 π/3 angles; The variation of interval ISECTOR and VSECTOR is in proper order, increases progressively circulation successively.If input b phase (output B phase) voltage produces by the principle of leading input a phase (output A phase) voltage 2 π/3 angles; The variation of interval ISECTOR and VSECTOR is

in proper order, the circulation of successively decreasing successively.According to the principle of space vector modulation, interval ISECTOR and VSECTOR have 36 kinds of combinations, and every kind is combined in five kinds of on off states were arranged in each modulation period, the duration of every kind of on off state respectively by formula (1) calculate:

$T_{\mathrm{\α\μ}}=m\sin (\frac{\mathrm{\π}}{3}-{\mathrm{\θ}}_{\mathrm{sv}})\sin (\frac{\mathrm{\π}}{3}-{\mathrm{\θ}}_{\mathrm{sc}}),$

$T_{\mathrm{\β\μ}}=m\sin \left({\mathrm{\θ}}_{\mathrm{sv}}\right)\sin (\frac{\mathrm{\π}}{3}-{\mathrm{\θ}}_{\mathrm{sc}}),$

$T_{\mathrm{\αv}}=m\sin (\frac{\mathrm{\π}}{3}-{\mathrm{\θ}}_{\mathrm{sv}})\sin \left({\mathrm{\θ}}_{\mathrm{sc}}\right),---\left(1\right)$

T _βv＝msin(θ _sv)sin(θ _sc)

T ₀＝T _s-T _αμ-T _βμ-T _αv-T _βv。

θ wherein _SCWith θ _SVBe input, the angle of output voltage vector in ISECTOR and VSECTOR interval, excursion is 0～π/3.Control bidirectional switch by this on off state and switch duration, then at each of T modulation period _sIn can obtain the output voltage identical with the mean value of expecting voltage.

When the output of matrix converter switches to another input phase time mutually from an input, change of current step and order that must the strict regulations bidirectional switch not be opened a way in not short circuit and output mutually mutually in order to guarantee in commutation course input.Therefore, bidirectional switch safety, reliably, change of current strategy is one of key technology of matrix converter practicability fast.Many documents have proposed various change of current strategies, come the strategy of the change of current can be divided into based on the current mode change of current strategy of output current direction with based on the voltage-type change of current strategy of importing phase voltage relative size by the sense of current and voltage swing.Quantity by change of current step can be divided into change of current strategies such as two steps, four steps.The four step change of current application of policies that Burany proposes are the most extensive.Fig. 4 (a) and Fig. 4 (b) are typical voltage-type four step change of current strategies.Is example explanation, switch S at this moment with the change of current of a phase mutually to b _ApAnd S _AnIt is conducting; When Ua (t)＞Ub (t), the first step is opened S _Bp, second step was turn-offed S _Ap, the 3rd step was opened S _Bn, the 4th step was turn-offed S _An, so just accomplished the change of current between four power switchs, its change of current sequential shown in Fig. 4 (a), T wherein _dIt is the Dead Time of power switch.A four complete change of current times in step need 4*Td.Four step change of current strategies had both been forbidden the switch combination that input voltage is short-circuited, and having guaranteed again provides at least one circulation path to load at any time.When Ua (t)＜Ub (t), opening of switch turn-offed sequential shown in Fig. 4 (b), and be different with Fig. 4 (a).Voltage-type four step change of current strategies must accurately be known the relative size between two change of current input voltages; When input voltage value near the time; If matrix converter is judged by accident the relative size of input voltage; To cause producing wrong change of current sequential, the result that sequential is made mistakes can cause between the input phase voltage and produces Short-Circuit High Current, damages power switch.Equally also there is the defective that must accurately know the load current direction in current mode four step change of current strategies, and the result that sequential is made mistakes causes the output load current open circuit.If load is perceptual, current open possibly produce overvoltage, can damage power switch equally.

Following discussion is only limited to voltage-type four step change of current strategies.

People such as Jochen Mahlein have proposed a kind of voltage-type change of current strategy to the space vector modulation strategy in the paper of publishing in 2002 " Matrix Converter Com-mutation Strategies With and Without Explicit Input Voltages Sign Measureme-nt " (a kind of matrix converter change of current strategy that input voltage is accurately measured that do not rely on).This method has been avoided the change of current between two approaching input phase voltages of magnitude of voltage through the order of the combination of five on off states in each modulation period is integrated, thereby has avoided the short circuit phenomenon that constantly possibly occur in the change of current.When the interval VSECTOR of output voltage is even number with input voltage interval ISECTOR sum, T ₁=T _{β μ}, T ₂=T _{α μ}, T ₃=T _{α v}, T ₄=T _{β v}When the interval VSECTOR of output voltage is odd number with input voltage interval ISECTOR sum, T ₁=T _{α μ}, T ₂=T _{β μ}, T ₃=T _{β v}, T ₄=T _{α v}After second on off state combination, insert zero vector, the duration is T ₀, it is the maximum input phase voltage of absolute value in the voltage range that zero vector is selected the principle of voltage.The bidirectional switch combinations of states is as showing-1:

Table-1

The combinations of states of ternary letter representation bidirectional switch in the table.The output of first letter representation and matrix converter is the input phase that connects of A mutually; Second letter is represented and the output of the matrix converter input phase that connects of B mutually; The output of the 3rd letter representation and matrix converter is the input phase that connects of C mutually.On off state makes up abb and representes: the output phase A of matrix converter and input a mutually connect, and b is connected output phase B with importing mutually with output phase C.With interval ISECTOR of input voltage and output voltage interval VSECTOR is 1 * 1 to be example; Like Fig. 5 (a); The order of switch combination was when triangular carrier was rising: abb → aba → aaa → aca → acc, the order of switch combination was when triangular carrier was decline: acc → aca → aaa → aba → abb.Wherein the voltage of zero vector selection is a phase, and this moment, a was positive maximum mutually, and the duration is T ₀, for the safe and reliable change of current, T ₀Can not be less than the Dead Time T of power switch _dWhen the interval was combined as 1 * 1, a connected output phase A with importing mutually always; The input that output phase B connects in a triangular carrier is respectively b → b → a → c → c → c → c → a → b → b mutually; The input that output phase C connects in a triangular carrier is respectively b → a → a → a → c → c → a → a → a → b mutually.The order of the output phase B and the C change of current all is b → a → c → a → b, circulates with this.The difference of output phase B and C is the asynchronism(-nization) of each state continuance.When interval ISECTOR=1, magnitude of voltage maybe approaching input be b mutually with c mutually.Analyze from above-mentioned change of current order; The not directly change of current between input phase b and the c; The a phase has been inserted in the centre; The value of a phase is maximum, b mutually and a mutually or c mutually and the relative size of a between mutually be easy to distinguish, so through the order of adjusting each switch combination successfully avoided maybe be approaching at magnitude of voltage two input phase b and c between the change of current.Because only adjust the order of on off state combination, the input current and the average value of output voltage of matrix converter remain unchanged.

When interval ISECTOR changed, situation was different.For accomplish a complete commutation course, just matrix converter generally only can carry out the interval switching at triangular carrier peak or minimum point.In the time of between triangular carrier minimum point switch area; Like Fig. 5 (a); ISECTOR X VSECTOR switched to 2 * 1 o'clock by 1 * 1, and the order of on off state combination is: acc → aca → aaa → aba → abb → aca → acc → ccc → bcc → bcb (from the summit of triangular carrier to the limit).The input of exporting phase A connection this moment is respectively mutually: a → a → a → a → a → a → a → c → b → b; The input that output phase B connects is respectively mutually: c → c → a → b → b → c → c → c → c → c; The input that output phase C connects is respectively mutually: c → a → a → a → b → a → c → c → c → b.The change of current order of output A phase is: a → c → b; The change of current order of output B phase is: c → a → b → c; The change of current order of output C phase is: c → a → b → a → c → b.The change of current increased frequency of output C phase, and there is following problems in the b → a → c in the change of current order of output C phase: when interval ISECTOR switches, and angle θ _SCApproach 0 or π/3, the duration of state a maybe be very short, when the duration less than power switch Dead Time T _dThe time, phenomenon can be short-circuited during change of current switching.Four step change of current sequential when Fig. 6 (a) expression change of current order is b-a-c.This moment, a phase voltage was positive maximum, and the c phase voltage is for negative maximum, and b joins and is bordering on 0.As a state duration T ₁Less than T _dThe time, press voltage-type four step change of current strategies, S can take place _BpWith S _CnThe phenomenon of conducting simultaneously causes b and the short circuit of c phase voltage, and be T the duration of short-circuit _d-T ₁The basic reason that is short-circuited is: b mutually and a be by from little (big) of switching of magnitude of voltage, sequential such as Fig. 4 (b) between mutually to the big sequential of magnitude of voltage from switching to for a short time; Be by big to magnitude of voltage little (little) of switching mutually, sequential such as Fig. 4 (a) between a phase and the c phase from switching to greatly from magnitude of voltage.Because a state duration is less than power switch Dead Time T _d, overlapping on b and the c change of current sequential life period mutually, be equivalent to b mutually and c the change of current has taken place between mutually.According to the relative size between them, commutation mode should be switch to greatly little, but b mutually actual be by carrying out from switching to big mode for a short time, finally cause change of current sequential to be made mistakes, thereby S take place _BpWith S _CnThe phenomenon of conducting simultaneously.

In the time of between triangular carrier peak switch area, like Fig. 5 (b), the state of a-c-b can appear in the change of current order of output C phase, when the duration T of c state ₃Less than T _dThe time, S can take place equally _ApWith S _BnThe phenomenon of conducting simultaneously causes a and the short circuit of b phase voltage, and the duration is T _d-T ₃

For fear of above-mentioned short trouble, matrix converter need come to adjust change of current sequential in real time according to input voltage relative size, pulse duration and the input that is about to switch mutually, and such workload is very big, and reliability is not high.

Summary of the invention

The technical problem that the present invention will solve provides a kind of control method of matrix converter, can effectively prevent the problem in the input phase voltage is interval when switching small-pulse effect possibly cause input-voltage short circuit; For this reason, the present invention also will provide a kind of device of realizing this method.

For solving the problems of the technologies described above, the control method of matrix converter of the present invention is, commutation mode is undertaken by voltage-type four step change of current strategies, and the waveform of triangular carrier makes sawtooth waveform in good time.

The control device of matrix converter of the present invention comprises:

Drive amplifying return circuit, four step of voltage-type convertor unit, voltage swing comparing unit and matrixing switch combination control unit;

Also comprise the interval and angular detection unit of input voltage, its input links to each other with three phase mains, measures the interval ISECTOR and the angle θ of input voltage _SC, and flow to matrixing switch combination control unit;

Said matrixing switch combination control unit is according to the interval ISECTOR and the angle θ of input voltage _SCAnd the interval VSECTOR and the angle θ that need output voltage _SV, confirm various on off state combinations and corresponding duration, and flow to four step of voltage-type convertor unit; Wherein, when the interval ISECTOR of input voltage switches, need to change the waveform of triangular carrier, make it become sawtooth waveforms;

The input of said voltage swing comparing unit is connected with the input of the output of filter and matrix converter, detects the relative size of input voltage, and flows to four step of voltage-type convertor unit;

Said four step of voltage-type convertor unit carries out the four step changes of current according to relative size and the various switch combination and the duration thereof of input voltage, and output pulse signal is given and driven amplifying return circuit;

After the pulse signal that said driving amplifying return circuit is exported four step of voltage-type convertor unit carries out power amplification, drive each power switch of matrix converter.

After adopting method and apparatus of the present invention, when switching, the waveform of triangular carrier is become sawtooth waveform in the interval; When the interval of input voltage switched, the direction of switching according to the interval in the initial value that the peak or the minimum point of triangular carrier changes triangular carrier, not only successfully avoided small-pulse effect possibly cause the problem of input-voltage short circuit, can also reduce the switch number of times.

Description of drawings

Below in conjunction with accompanying drawing and embodiment the present invention is done further detailed explanation:

Fig. 1 is the topology diagram of three-phase matrix converter.

Fig. 2 (a) is the interval division figure of input phase voltage, (b) is the interval division figure of output line voltage.

Fig. 3 is that output phase A is through power switch and input three-phase a, b, c connection layout.

Fig. 4 is the sequential chart of voltage-type four step change of current strategies, and wherein (a) expression switches to four big step sequential charts of magnitude of voltage for a short time from magnitude of voltage, and (b) expression switches to four little step sequential charts of magnitude of voltage greatly from magnitude of voltage.

Fig. 5 is carrier wave switch combination variation diagram when being triangle.

Fig. 6 is the Time-Series analysis figure that small-pulse effect causes input-voltage short circuit.

Fig. 7 is the variation diagram of the triangular carrier that proposes of the present invention.

Fig. 8 is that triangular carrier becomes four step change of current sequential charts behind the sawtooth waveforms.

Fig. 9 is a control device structural representation of the present invention.

Embodiment

When triangular carrier during in minimum point; Switch if this moment, voltage range took place; And incremental variations is pressed in the interval; As changing by

trend, when that switched in the interval, the present invention directly changed to maximum to the waveform of triangular carrier from minimum value; Become sawtooth waveform to triangular carrier, the duration is half triangular carrier cycle T s.Shown in Fig. 7 (a); Interval ISECTOR switches to 2 from 1; It is 1 constant that interval VSECTOR keeps; The waveform of triangular carrier directly changes to maximum from minimum value, and the switch combination order in those continuous two Ts times becomes: acc → aca → aaa → aba → abb → bcb → bcc → ccc → acc → aca.Export the input that A is connected and be respectively mutually this moment: a → a → a → a → a → b → b → c → a → a; The input that output B is connected is respectively mutually: c → c → a → b → b → c → c → c → c → c; The input that output C is connected is respectively mutually: c → a → a → a → b → b → c → c → c → a.The change of current order of output phase A is: a → b → c → a; The change of current order of output phase B is: c → a → b → c; The change of current order of output phase C is: c → a → b → c → a.The change of current order of output three-phase all becomes and is a → b → c when switching in the interval.Know that from noted earlier input a phase voltage value is positive maximum, the b phase voltage value approaches 0; The c phase voltage value is for negative maximum; The change of current order of this moment is from switch to greatly, to switch to for a short time again, and change of current sequential all is from switching to little pattern greatly, and the switching sequence when not changing the triangular carrier waveform is inequality; The phenomenon of voltage short circuit can not take place in concrete change of current sequential again shown in Fig. 8 (a).

Equally; When triangular carrier during at minimum high point; Switch if this moment, voltage range took place, and intervally change, as changing by

trend by successively decreasing; When that switches in the interval; The present invention directly changes to minimum value to the waveform of triangular carrier from maximum, becomes sawtooth waveform to triangular carrier, and the duration is half triangular carrier cycle T s.Shown in Fig. 7 (b); Interval ISECTOR switches to 1 from 2; It is 1 constant that interval VSECTOR keeps; The waveform of triangular carrier directly changes to minimum value from maximum, and the switch combination order in those continuous two Ts times becomes: aca → acc → ccc → bcc → bcb → abb → aba → aaa → aca → acc.Export the input that A is connected and be respectively mutually this moment: a → a → c → b → b → a → a → a → a → a; The input that output B is connected is respectively mutually: c → c → c → c → c → b → b → a → c → c; The input that output C is connected is respectively mutually: a → c → c → c → b → b → a → a → a → c.The change of current order of output phase A is: a → c → b → a; The change of current order of output phase B is: c → b → a → c; The change of current order of output phase C is: a → c → b → a → c; The change of current order of output three-phase all becomes and is c → b → a when switching in the interval.The change of current order of this moment is from switch to for a short time, to switch to greatly again; Change of current sequential all is from by switching to big pattern for a short time; Switching sequence when not changing the triangular carrier waveform is inequality, and concrete change of current sequential shown in Fig. 8 (b) phenomenon of voltage short circuit can not take place again.

Change by

trend like interval ISECTOR, then can not carry out the interval and switch at the triangular carrier peak.Because when interval ISECTOR changes by

, need when triangular carrier touches the bottom, could carry out waveform transformation according to Fig. 7 (a).If interval ISECTOR has needed to switch at the triangular carrier peak, carry out interval switching in the time of need being deferred to next triangular carrier minimum point again.Delay time is Ts.

Equally; Change by

trend like interval ISECTOR, then can not carry out the interval and switch in the triangular carrier minimum point.Because when interval ISECTOR changes by

, need when triangular carrier peaks, could carry out waveform transformation according to Fig. 7 (b).If interval ISECTOR has needed to switch in the triangular carrier minimum point, carry out interval switching in the time of need being deferred to next triangular carrier peak again.Delay time is Ts.Ts is generally less than 100us, and with respect to the cycle 20ms of input voltage, Ts is relatively very little, can ignore the influence of output voltage and input current.

The switching of interval VSECTOR need not change the waveform of triangular carrier, and can occur in the peak or the minimum point of triangular carrier.As long as switching has taken place interval ISECTOR, no matter whether interval VSECTOR switches, the waveform of triangular carrier all need make sawtooth waveform into.

As shown in Figure 9, control device of the present invention comprises driving amplifying return circuit 8, four step of voltage-type convertor unit 9, voltage swing comparing unit 10, matrixing switch combination control unit 11 and input voltage interval and angular detection unit 12.

Three-phase matrix converter 1 is made up of by 3 * 3 switch matrix forms nine two-way power switch, and output phase A, B, C are connected on the motor 4, between input phase a, b, c and the three phase mains 3 filter 2 is installed.

Input voltage is interval to link to each other with three phase mains 3 with angular detection unit 12, measures the interval ISECTOR and the angle θ of three-phase input voltage in real time _SC, flow to matrixing switch combination control unit 11.Motor variable-frequency variable-voltage controller 13 through current transformer 6 and 7 and encoder 5 detect electric current and the motor running speed and the angle of motor 4 respectively; Motor is carried out variable-frequency variable-voltage control; Calculate the required three-phase voltage of motor, calculate the interval VSECTOR and the angle θ of output voltage then according to potentiometer _SV, flow to matrixing switch combination control unit 11.Matrixing switch combination control unit 11 is according to the interval ISECTOR and the VSECTOR reference table-1 selector switch combinations of states of input, and according to angle θ _SCAnd θ _SVCalculate duration of each on off state combination according to formula (1), the input voltage power factor of the vector magnitude of Coefficient m and output voltage and expectation is relevant in the formula (1).When interval ISECTOR switched, triangular carrier changed waveform by the method that the present invention proposes, the order that the control switch combinations of states takes place.The relative size of the input voltage that voltage-type four step convertor unit 9 is exported according to the on off state combination of matrixing switch combination control unit 11 outputs and duration and voltage swing comparing unit 10; Carry out change of current control according to voltage-type four step change of current strategies, output pulse signal is given and is driven amplifying return circuit 8.Drive amplifying return circuit 8 and triggering signal is provided for matrix converter 1,1 pair of input voltage of gating matrix converter carries out Direct Transform, motor 4 required voltages that output motor variable-frequency variable-voltage controller 12 calculates, CD-ROM drive motor 4 runnings.

In control device of the present invention; Input voltage interval and angular detection unit 12 are installed between three-phase input power supply 3 and the filter 2; Mainly be the influence of considering owing to 1 pair of input voltage of matrix converter, the good reason of waveform of the voltage waveform specific output side of filter 2 input sides.Voltage swing comparing unit 10 is installed between filter 2 and the matrix converter 1; Be that the test point of voltage swing comparing unit 10 is good more closely more from the input side of matrix converter 1 because four step of voltage-type convertor unit needs to detect in real time the relative size of matrix converter 1 input side three-phase voltage.

Matrixing switch combination control unit 11 becomes virtual ac-dc-ac transform device with matrix converter 1 equivalence, utilizes space vector modulation technique to realize virtual rectification and virtual inversion respectively, and is at last that both are comprehensive; Obtain required modulating function matrix; Realize linear transformation, it is sinusoidal not only making input current, the frequency of output voltage and adjustable amplitude value; But and the power two-way flow, have the four quadrant running ability.

Claims (4)

1. the control method of a matrix converter is characterized in that: commutation mode is undertaken by voltage-type four step change of current strategies, and the waveform of triangular carrier makes sawtooth waveform in good time;

By matrixing switch combination control unit according to the interval ISECTOR of input voltage and the interval VSECTOR and the angle θ sv of angle θ sc and needs output voltage; Confirm various on off state combinations and corresponding duration, and flow to four step of voltage-type convertor unit; Four step of voltage-type convertor unit is according to relative size and the combination of various on off state and the duration thereof of input voltage; Carry out the four step changes of current; Output pulse signal is given and is driven amplifying return circuit; After the pulse signal that the driving amplifying return circuit is exported four step of voltage-type convertor unit carries out power amplification, drive each power switch of matrix converter;

Wherein, when the interval ISECTOR of input voltage switched, the direction of switching according to the interval changed the initial value of triangular carrier in the peak or the minimum point of triangular carrier, thereby the waveform change of triangular carrier is become sawtooth waveform.

2. control method as claimed in claim 1 is characterized in that: when voltage range changes by the mode that increases progressively, and carry out the interval when switching in the minimum point of triangular carrier, change the waveform of triangular carrier, directly change to peak from minimum point.

3. control method as claimed in claim 1 is characterized in that: when voltage range changes by the mode of successively decreasing, and carry out the interval when switching at the peak of triangular carrier, change the waveform of triangular carrier, directly change to minimum point from peak.

4. the control device of a matrix converter is characterized in that: comprise driving amplifying return circuit (8), four step of voltage-type convertor unit (9), voltage swing comparing unit (10) and matrixing switch combination control unit (11);

Also comprise input voltage interval and angular detection unit (12), its input links to each other with three phase mains (3), measures the interval ISECTOR and the angle θ sc of input voltage, and flows to matrixing switch combination control unit (11);

Said matrixing switch combination control unit (11) is according to the interval ISECTOR of input voltage and the interval VSECTOR and the angle θ sv of angle θ sc and needs output voltage; Confirm various on off state combinations and corresponding duration, and flow to four step of voltage-type convertor unit (9); Wherein, when the interval ISECTOR of input voltage switches, need to change the waveform of triangular carrier, make it become sawtooth waveforms;

The input of said voltage swing comparing unit (10) is connected with the output of filter (2) and the input of matrix converter (1), detects the relative size of input voltage, and flows to four step of voltage-type convertor unit (9);

Said voltage-type four step convertor units (9) carry out the four step changes of current according to relative size and the combination of various on off state and the duration thereof of input voltage, and output pulse signal is given and driven amplifying return circuit (8);

After the pulse signal that said driving amplifying return circuit (8) is exported voltage-type four step convertor units (9) carries out power amplification, drive each power switch of matrix converter (1).

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