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EET421 Power Electronic Drives - DC to AC converter / Inverter Abdul Rahim Abdul Razak 8-1 ABD RAHIM 2008 8-2 ABD RAHIM 2008 Summary dc-to-ac converters are known as inverters The function of an inverter is to change the dc input voltage to an ac output voltage of desired magnitude and frequency The output voltage waveforms of ideal inverters should be sinusoidal However, the output of practical inverters contains harmonics For high power applications, low distorted sinusoidal waveforms are required Harmonic contents could be minimized by the use of high-speed semiconductor switching techniques Inverters are widely used in industrial applications - motor drives, UPS, induction heating, standby power supplies, etc. - input may be a battery, fuel cell, solar cell, or there dc source dc-to-ac inverters can make smooth transition into the rectification mode, where the flow of power reverses from the ac side to the dc side Two types of inverters: single-phase inverters and three-phase inverters 8-3 ABD RAHIM 2008 Switch-Mode DC-AC Inverters Applications: ac motor drives Uninterruptible ac power supplies Where a sinusoidal ac output is required whose magnitude and frequency both have to be controlled Terminal voltage is adjustable in its magnitude and frequency 8-4 ABD RAHIM 2008 Switch-Mode DC-AC Inverter: Bi-directional power flow 8-5 8-6 ABD RAHIM 2008 8-7 ABD RAHIM 2008 8-8 ABD RAHIM 2008 8-9 ABD RAHIM 2008 8-10 ABD RAHIM 2008 8-11 ABD RAHIM 2008 8-12 ABD RAHIM 2008 8-13 ABD RAHIM 2008 8-14 ABD RAHIM 2008 8-15 ABD RAHIM 2008 8-16 ABD RAHIM 2008 8-17 ABD RAHIM 2008 8-18 ABD RAHIM 2008 8-19 ABD RAHIM 2008 Voltage control of 1-phase inverter - The needs to have a controllable output voltage : 1) To cope with variations of DC input voltage 2) For inverter voltage regulation 3) For constant volts/frequency control requirement - Most efficient techniques is by incorporating PWM control within the inverter : a) Single pulse width modulation - PWM b) Multiple pulse width modulation - MPWM c) Sinusoidal pulse width modulation - SPWM d) Modified sinusiodal pulse width modulation - MSPWM e) Phase displacement control 8-20 ABD RAHIM 2008 a) Single pulse width modulation - PWM Modulation index: M=Ar/Ac Varying Ar from 0 to Ac, will increase the δ thus the output will vary from 0 to Vs 8-21 ABD RAHIM 2008 a) Single pulse width modulation - PWM Modulation index: M=Ar/Ac DF increased badly significantly at low Varying Ar from 0 to output voltage Ac, will increase the δ thus the output will vary from 0 to Vs 3rd harmonic more dominant on single PWM 8-22 ABD RAHIM 2008 b) Multiple pulse width modulation - MPWM fo will set the output frequency while fc will determines the pulses per half cycle,p. fc / fo = mf, frequency modulation ratio 8-23 ABD RAHIM 2008 b) Multiple pulse width modulation - MPWM -By using several pulses, (p=5) The harmonic content are reduced compared to single fo will set the output PWM frequency while fc will - the DF isdetermines also reduced the pulses per half cycle,p. significantly. - but switching loss would increased. - if p increased, the amplitude of lower order harmonics would be lowered but it will increase the high-orders harmonics fc / fo = mf, frequency modulation ratio 8-24 ABD RAHIM 2008 c) Sinusoidal pulse width modulation - SPWM -Pulse width varied proportional to the amplitude of sinewave ref signal. - the gating signal generated by comparing the triangular carrier wave and sinusoidal ref signal. 8-25 ABD RAHIM 2008 Sinusoidal pulse width modulation - SPWM Modulation index: M=Ar/Ac Varying Ar from 0 to Ac,compared will increase the δ -DF is less to MPWM thus the output will - eliminates lower varythe from 0 toorder Vs harmonics of 2p-1, for this p=5, lowest order harmonics is 9th. - the harmonics were pushed to the high frequency range of fc. So it would be much easier for low-pass filtering process. 8-26 ABD RAHIM 2008 8-27 ABD RAHIM 2008 Overmodulation leads to squarewave operation and add harmonics to the system 8-28 ABD RAHIM 2008 d) Modified sinusiodal pulse width modulation MSPWM - instead of 100% pulses, carrier wave is applied on 1st and last 60 degree of half cycle. - advantages : a) Fundamental component increased b) Harmonics characteristics are improved. c) Reduce switching loss. 8-29 ABD RAHIM 2008 d) Modified sinusiodal pulse width modulation MSPWM advantages : a) Fundamental component increased b) Harmonics characteristics are improved. c) Reduce switching loss. 8-30 ABD RAHIM 2008 e) Phase displacement control - multiple inverter are used, output is taken from summation of output voltage of the individual inverter. 2 half bridge inverter output Output with 180 degree displacement. Output with β degree displacement 8-31 ABD RAHIM 2008 Three-Phase Inverter Used to supply three-phase loads Three single-phase inverters could be used with 120 degree displacement or shifting between phases, however, 12 switches are necessary Consists of three legs, one for each phase One of the two switches in a leg is always ON at any instant Output of each leg depends on Vd and the switching status 8-32 8-33 Current source inverters - a large inductor component inserted at the input -input behaves like a current source -The output current will maintained constant at any loads but output voltage forced to change -Diodes in series are required to block the reverse voltage on the transistors. 8-34 ABD RAHIM 2008