CN106953536B

CN106953536B - A kind of more level sinusoidal pulse width modulation methods

Info

Publication number: CN106953536B
Application number: CN201710286573.9A
Authority: CN
Inventors: 张兰勇; 曹岸; 刘胜; 杜逸璇; 刘泽威; 耿文杰
Original assignee: Harbin Engineering University
Current assignee: Harbin Engineering University
Priority date: 2016-06-02
Filing date: 2017-04-27
Publication date: 2019-03-05
Anticipated expiration: 2037-04-27
Also published as: CN106953536A

Abstract

The present invention is to provide a kind of more level sine pulsewidth methods.(1) according to converter levels number N, determine single carrier period intercarrier waveform from isosceles triangle carrier wave to the waveform convertion that more level triangular carriers are laminated；(2) according to converter levels number N, each stacking carrier wave successively 360 ° of phase shift/(N-1)；(3) modulating wave is compared with stacking carrier wave: when modulating wave is more than or equal to stacking carrier value output high level, when modulating wave exports low level less than stacking carrier value；(4) when modulating wave and each carrier band are compared each output PWM waveform all the way according to step (3), each road PWM waveform is finally obtained.The modulator approach that the present invention is mentioned can apply in single-phase and three-phase circuit, have good harmonic wave of output voltage performance, can effectively improve the utilization rate of DC voltage.

Description

A kind of more level sinusoidal pulse width modulation methods

Technical field

The present invention relates to a kind of pulse-width modulation method, specifically a kind of more level sinusoidal pulse width modulations (SPWM) method.

Background technique

Since the performance indicator that high power converter is pursued is mainly higher power supply quality and minimum switching frequency, Therefore demand of the high-voltage high-power converter to modulation scheme is also increasingly urgent to.Again due to two performances of power supply quality and switching frequency The constraint of index, modulation technique become one of the huge challenge that multi-level converter technical field is faced.

Multi-level converter Carrier-based PWM control strategy is that direct popularization of the two level carrier PWM technologies in more level is answered With.Carrier-based PWM technology is broadly divided into two classes based on the processing to carrier wave: pulse modulation technology (LS-PWM) and carrier wave is laminated in carrier wave Horizontal phase-shifted pulse width modulation technology (PS-PWM) technology, is disclosed report [Multilevel in pertinent literature converters:An enabling Technology for High-Power Applications.J Rodriguez,L G Franquelo,S Kouro,et al.Proc.IEEE,2009,97(11),1786-1817].Publication No. CN103490753A Patent document in, disclose " it is a kind of realize stacking carrier effect single-carrier modulated method ", what is provided is that carrier wave is laminated The carrier wave that modulation is had neither part nor lot in some period in more level carriers in PWM technology removes, and forms single carrier, but its modulation effect Fruit does not have significant optimization, and output harmonic wave performance and more level carriers are still identical.The patent of Publication No. CN103490652A Disclose a kind of " phase-shifting carrier wave pulse duration modulation method " in file, be with half of primitive period be unit, to triangular carrier into The phase shift that 180 ° of row is modulated and eliminates even-order harmonic, but such method only has a carrier wave and is not suitable for more level skills It is modulated in art.

Summary of the invention

The purpose of the present invention is to provide a kind of more level that can improve output harmonic wave performance, improve voltage utilization are sinusoidal Pulse duration modulation method.

The object of the present invention is achieved like this:

(1) according to converter levels number N, determine that single carrier period intercarrier waveform is more from isosceles triangle carrier wave to being laminated The waveform convertion of level triangular carrier；

(2) according to converter levels number N, each stacking carrier wave successively 360 ° of phase shift/(N-1)；

(3) modulating wave is compared with stacking carrier wave: exports high level when modulating wave is more than or equal to stacking carrier value, when Modulating wave is less than stacking carrier value and exports low level；

(4) when modulating wave and each carrier band are compared each output PWM waveform all the way according to step (3), final To each road PWM waveform, more level sinusoidal pulse width modulations are constituted.

It is described according to converter levels number N, determine single carrier period intercarrier waveform from isosceles triangle carrier wave to layer The method for folding the waveform convertion of more level triangular carriers are as follows:

(1) the isosceles triangle carrier wave in single carrier period is divided into N-1 equal part in vertical direction；

(2) the small isosceles triangle that amplitude is 1 is successively used horizontally to the right, vertical direction is from N-1 to 0 again to the diagonal of N-1 More level triangular carriers are laminated in mobile constitute in line direction；

(3) according to the movement rule of step (2) small isosceles triangle, a cycle layer is formed when mobile number is 2N-4 Fold more level triangular carriers；

(4) 360 ° of the advanced phase shift of more level triangular carriers/(2 (2N-4)) phase angle will be laminated.

The essence of technical solution of the present invention is: determining carrier waveform from isoceles triangle according to the level number of converter first Transformation of the carrier wave to the more level triangular carriers of stacking；Then to more level triangular carriers progress phase shifts are laminated, converter institute is determined All carrier waveforms needed；By the way that carrier wave compared with modulating wave, is exported high level when modulating wave is more than or equal to carrier value, Low level is then exported when modulating wave is less than carrier value, the PWM waveform on each road is obtained with this principle.

The advantages of technical solution, is:

(1) the power distribution uniformity advantages of phase-shifting carrier wave modulator approach are taken into account, while output voltage can be improved well Harmonic performance, especially low modulation than when harmonic performance improve it is significant.

(2) in multi-level converter circuit, which can effectively improve the utilization rate of DC voltage, to improve To the power output of exchange side.

The modulator approach that the present invention is mentioned can apply in single-phase and three-phase circuit, have good harmonic wave of output voltage Can, the utilization rate of DC voltage can be effectively improved.

Detailed description of the invention

Fig. 1 is the Transformation Graphs that more level triangular carriers are laminated；

Fig. 2 is that five level SPWMs modulate schematic diagram.

Specific embodiment

It illustrates with reference to the accompanying drawing and the present invention is described in more detail:

Step (1), according to converter levels number N, determine single carrier period intercarrier waveform from isosceles triangle carrier wave to The waveform convertion of triangular carrier is laminated.In conjunction with Fig. 1, which includes the following steps:

1) the isosceles triangle carrier amplitude in single carrier period is that N-1 in vertical direction is divided into N-1 equal part, then every part Amplitude is 1；

2) successively using amplitude is 1, and period pulsewidth is T_sThe small isosceles triangle of/(2N-4) horizontally to the right vertical direction from N- More level triangular carriers are laminated in 1 to 0 mobile constitute of diagonal for arriving N-1 again；

3) period of the isosceles triangle carrier wave in single carrier period is set as T_s, phase angle be 360 °, small isosceles triangle moves Form a cycle when dynamic number is 2N-4 and more level carriers be laminated, then every part of pulsewidth be 360 °/phase angle of (2N-4)；

4) it in order to make to be laminated more level triangular carrier balancing waveforms, is moved in advance here, more level triangular carriers will be laminated 360 ° of phase/(2 (2N-4)) phase angle.

Step (2), according to converter levels number N, each stacking carrier wave successively 360 ° of phase shift/(N-1), for N level Converter, required number of carrier wave are N-1, and by stacking carrier wave, successively 360 ° of phase shift/(N-1) phase angle can form required N- 1 carrier band.

Modulating wave is compared by step (3) with stacking carrier wave: when modulating wave is more than or equal to the high electricity of stacking carrier value output It is flat, low level is exported when modulating wave is less than stacking carrier value；When modulating wave with wherein a carrier band can be defeated according to this principle PWM waveform all the way out.

Step (4), when modulating wave and each carrier band are compared each output PWM waveform all the way according to step (3), most Each road PWM waveform is obtained eventually, constitutes more level sinusoidal pulse width modulations.When modulating wave is compared with N-1 carrier band respectively, then The PWM waveform on the road N-1 can be obtained.

Below by taking the modulation of five level SPWMs as an example, the modulator approach is illustrated:

In conjunction with Fig. 2, the level number of converter is 5, and isoceles triangle carrier wave vertical direction in the monocycle is divided into 4 equal parts, It may make up the more level triangular carriers of the stacking in the single carrier period with 6 small isosceles triangles in diagonal line distribution；It will stacking Successively 90 ° of phase shift of phase angle has then obtained 4 carrier band to carrier wave；Modulating wave is set as sine wave, sine wave and stacking carrier wave 1 into Row compare, when the value of sine wave be more than or equal to stacking carrier value when, output PWM1 waveform be high level, it is on the contrary then be low level. PWM2, PWM3 and PWM4 totally 4 road PWM waveform are finally respectively obtained compared with other carrier band respectively.

Claims

1. a kind of more level sinusoidal pulse width modulation methods, it is characterized in that including the following steps:

Step (1) determines single carrier period intercarrier waveform from isosceles triangle carrier wave to stacking according to converter levels number N The waveform convertion of triangular carrier, specifically comprises the following steps:

1) the isosceles triangle carrier amplitude in single carrier period is divided into N-1 equal part in vertical direction for N-1, then every part of amplitude It is 1；

It 2) with amplitude is successively 1, period pulsewidth is T_sThe small isosceles triangle of/(2N-4) horizontally to the right vertical direction from N-1 to 0 More level triangular carriers are laminated in mobile constitute of diagonal for arriving N-1 again；

3) period of the isosceles triangle carrier wave in single carrier period is set as T_s, phase angle be 360 °, the mobile number of small isosceles triangle Form a cycle when for 2N-4 and more level carriers be laminated, then every part of pulsewidth be 360 °/phase angle of (2N-4)；

4) 360 ° of the advanced phase shift of more level triangular carriers/(2 (2N-4)) phase angle will be laminated；

Step (2), according to converter levels number N, each stacking carrier wave successively 360 ° of phase shift/(N-1), the transformation for N level Device, required number of carrier wave are N-1, and by stacking carrier wave, successively 360 ° of phase shift/(N-1) phase angle can form required N-1 Carrier band；

Modulating wave is compared by step (3) with stacking carrier wave: high level is exported when modulating wave is more than or equal to stacking carrier value, Low level is exported when modulating wave is less than stacking carrier value；The PWM waveform of modulating wave and a carrier band output all the way；

Step (4), when modulating wave and each carrier band are compared each output PWM waveform all the way according to step (3), final To each road PWM waveform, more level sinusoidal pulse width modulations are constituted, when modulating wave is compared with N-1 carrier band respectively, are then obtained The PWM waveform on the road N-1.